Clean synthetic vectors, plasmids, transgenic plants and plant parts containing them, and methods for obtaining them

ABSTRACT

The present invention relates to clean synthetic vectors intended to facilitate and improve the insertion of one or more genes of interest into a eukaryotic cell, and notably into a plant cell. The invention also relates to a procedure for obtaining these vectors as well as transgenic plants containing them.

[0001] This application claims the priority of PCT Application No. PCT/IB00/01243, filed Sep. 4, 2000, and published in English on Mar. 15, 2001, which application claims the priority of French Patent Application No. 99111112, filed Sep. 3, 1999.

[0002] The present invention relates to clean synthetic vectors, intended notably for use for genetic transformation in the field of plant biotechnology.

[0003] In general, the vectors are known in the field of biotechnology and genetic manipulation. The vectors which are currently used most commonly for genetic transformation, and in particular in the field of plant biotechnology, present several disadvantages in their use, however. In actual fact, and notably for plant transgenesis, use has often been made of a vector called pBin19 (Frisch et al., 1995). The nucleotide sequence of this binary plasmid pBin19 is entirely known. The problem, however, is that this plasmid is of large size (11.8 kbp) and that it contains useless elements (more than half of pBin19) which are intolerable from a regulatory point of view, or even detrimental to good replication. Moreover, the selection cassette of this plasmid is located near the right border of the T-DNA. Thus, when the T-DNA is broken after the selection cassette, it will not be possible to make any selection in order to retain solely the plants possessing the expression cassette of the desired gene.

[0004] The expressions used in the description and the claims have the following meaning:

[0005] “vector” means an expression system, for example DNA-coated projectiles, nucleic-acid-based transit vehicles, nucleic acid molecules adapted to deliver nucleic acid, and autonomous self-replicating circular DNA, for example plasmids, cosmids, phagemids, etc. If a micro-organism or a recombinant cell culture is described as host of an “expression vector”, this can also include extrachromosomal circular DNA (such as for example mitochondrial or chloroplast DNA), DNA which has been integrated into the host chromosome(s), where the vector can be either replicated in a stable manner by the cells during mitosis as an autonomous structure, integrated into the genome of the host, or maintained in the nucleus or cytoplasm of the host.

[0006] usually the vectors used for the genetic transformation exist in the form of plasmids. In this case, the “plasmid” is a molecule of autonomous circular DNA capable of replication in a cell. If a micro-organism or recombinant cell culture is described as the host of an “expression” plasmid, this comprises both extrachromosomal circular DNA molecules and DNA which has been integrated into the host chromosome(s). If the plasmid is maintained by a host cell, the plasmid is either replicated in a stable manner by the cells during mitosis as an autonomous structure, or integrated into the genome of the host;

[0007] “clean” means that the vector comprises only sequences that are indispensable for its functionality and carries a nucleic acid sequence which comprises only elements that are indispensable for the expression of the host cell;

[0008] “nucleic acid” means DNA or RNA;

[0009] “nucleic acid sequence” means a single- or double-stranded oligomer or polymer of nucleotide bases read from the 5′ end towards the 3′ end, and comprises self-replicating plasmids, genes, DNA or RNA polymers, which may or may not be infectious, and DNA, or RNA, either functional or non-functional. In the nucleotide notation used in the present application, unless specifically stated, the left end of a single-stranded nucleotide sequence is the 5′ end;

[0010] “derived nucleic acid sequence” means that the sequence derives directly or indirectly from the sequence referred to, for example by substitution, deletion, addition, mutation, fragmentation, and/or synthesis of one or more nucleotides;

[0011] “promoter” means a nucleic acid region which is upstream of the translation initiation codon and which is involved in the recognition and binding of RNA polymerase and other transcription proteins;

[0012] “plant promoter” is a promoter capable of initiating transcription in plant cells;

[0013] “constitutive promoter” is a promoter capable of expressing nucleic acid sequences operationally bound to said promoter, in all or practically all the tissues of the host organism, during the whole development of said organism;

[0014] “tissue specific promoter” is a promoter capable of selectively expressing nucleic acid sequences operationally bound to said promoter, in certain specific tissues of the host organism;

[0015] “operationally bound” means the binding of a functional or regulatory element, for example a promoter, to the nucleic acid sequence, or gene, to be expressed which codes for a protein to be produced, in such a way that this element influences the transcription of the bound nucleic acid sequence;

[0016] “expression cassette” means nucleotide sequences capable of directing the expression of a nucleic acid sequence, or of a gene, coding for a polypeptide to be produced in a host organism compatible with such sequences. Such cassettes include at least one promoter and a transcription termination signal, and optionally other factors necessary or useful for the expression;

[0017] “heterologous sequence” or “heterologous nucleic acid sequence” means a sequence originating from a source, or from a species, foreign to the environment thereof, or if it originates from the same environment, which has been modified relative to its original form. The modification of the nucleic acid sequence can take place for example by treatment of the nucleic acid with a restriction enzyme in order to generate a nucleic acid fragment which can be operationally bound to a promoter. The modification can also take place by means of techniques such as directed mutagenesis;

[0018] “box” means a nucleic acid sequence to which a regulatory function is attributed;

[0019] “like” means that the box, and/or the nucleic acid sequence with which this term is associated, involves a certain sequence identity or consensus with a box and/or a known nucleic acid sequence, called a reference sequence, preferably a sequence identity of at least 50%, more preferably a sequence identity of at least 75%, and more particularly a sequence identity of at least 90% with the reference sequence. The percentage of sequence identity is calculated on the basis of a comparison window of at least 6 nucleotide bases. The determination of a comparison window can be carried out using sequence alignment algorithms to determine a homology with a reference sequence, for example the local homology algorithm, the homology alignment algorithm, and the similarity search algorithm, these algorithms existing also in computerized form, known by the names GAP, BESTFIT, FASTA and TFASTA. The percentage of sequence identity is obtained by comparing the reference sequence with the box and/or the nucleic acid sequence;

[0020] “situated” means the position on a nucleic acid sequence of an identified element, such as a “box”, a restriction site, or a codon having a particular function. The position which is given by a figure refers to the position of the start of the element in the nucleic acid sequence, in the direction of reading of the latter, i.e. in the direction 5′→3′;

[0021] “transgenic plant” means a plant which has been obtained by genetic manipulation techniques, and covers the whole plants obtained, their progeny, and the plant organs, for example the roots, stems and leaves, obtained by these techniques. The transgenic plants according to the present invention can have different levels of ploidy, and can notably be polyploid, diploid, and haploid;

[0022] “propagule” means a cluster or association of plant cells, which may or may not be structured, allowing the regeneration of a whole plant, for example explants, calli, stems, leaves, roots, cuttings, and even seeds.

[0023] The applicant of the present invention has succeeded, surprisingly, in producing clean synthetic vectors, in particular binary plasmids, of completely known nucleotide sequence, of small size, allowing the aforesaid disadvantages to be alleviated, and notably presenting a high replication rate relative to the existing vectors most commonly used. Furthermore, the applicant has succeeded at the same time in producing a range of vectors in such a way as to be able to choose the one which it is convenient to use according to the application envisaged and the environment of its use, and thus in such a way as to be able to better control the rate of expression of a gene to be expressed, coding for a polypeptide to be produced.

[0024] In addition, in some of the vectors according to the invention, each of the functional elements or components can be isolated by simple enzymatic digestion.

[0025] An object of the present invention is therefore a clean synthetic vector containing only the elements indispensable to its functionality and to the transgenesis of a cell, and notably of a plant cell.

[0026] According to a preferred embodiment, the vector comprises, as elements which are indispensable to its functionality and to the transgenesis of a cell, and which are operationally bound:

[0027] at least one nucleic acid sequence coding for at least one first origin of replication, preferably an ori RK2, and more preferably at least one ori V of pRK2 of Escherichia coli with a broad host range;

[0028] at least one nucleic acid sequence coding for a selection agent, preferably an antibiotic resistance gene, more preferably the npt III gene conferring resistance to kanamycin in bacteria;

[0029] a trfA locus coding for at least one protein allowing an increase in the replication rate of the plasmid, preferably originating from pRK2, and more preferably coding for the proteins P285 and P382.

[0030] According to a more preferred embodiment the vector comprises the nucleic acid sequence identified by the number SEQ.ID01. Still more preferably, the vector consists of a single plasmid pMRT1105 whose nucleic acid sequence is identified by the number SEQ.ID01.

[0031] According to another preferred embodiment, the vector includes at least one nucleic acid sequence coding for a second origin of replication, preferably an ori of Escherichia coli, and more preferably an ori ColEI. More preferably, the vector comprises the nucleic acid sequence identified by the number SEQ.ID02, and still more preferably, the vector consists of a single plasmid pMRT1106 whose nucleic acid sequence is identified by the number SEQ.ID02.

[0032] Preferably, the synthetic vector according to the invention comprises a region (200 bp or less) made up of at least one nucleic acid sequence containing several unique enzymatic restriction sites called collectively <<multiple cloning sites>> (MCS).

[0033] According to a preferred embodiment, the vector also includes a nucleic acid sequence coding for a T-DNA comprising a right border RB and a left border LB, allowing the vector to act as a binary plasmid.

[0034] Preferably, the MCS is situated near (within 300 bp of) the right border, RB, of the T-DNA prior to the cloning of an insert into the MCS.

[0035] According to another preferred embodiment, the vector also includes a nucleic acid sequence coding for at least one expression promoter and at least one transcription terminator situated between the left border LB and the right border RB of the T-DNA. More preferably, the expression promoter is chosen from the group consisting of the constitutive promoters, the inducible promoters, the specific promoters, and preferably chosen from the plant expression promoters. Still more preferably, the expression promoter is chosen from the group consisting of the 35S CaMV promoter, the ep35S of CaMV, the pea plastocyanin gene promoter, its “enhancer” zones and derivatives, the wheat “High Molecular Weight Glutenin” (HMWG) promoter, the “Cassava Vein Mosaic Virus” CsVMV promoter, the “Commelina Yellow Mottle Virus” CoYMV promoter, the chimeric promoters of the CsVMV and CoYMV promoters, and their derivatives.

[0036] Preferably, the expression terminator is chosen from the functional terminators in a plant cell, and is preferably a 35S or nos terminator.

[0037] According to yet another preferred embodiment, the vector comprises at least one nucleic acid sequence coding for a selection agent that is functional in a plant cell, preferably at least one acid sequence coding for an antibiotic resistance gene, and/or a herbicide resistance gene.

[0038] Preferably, the sequence coding for a selection agent is a sequence coding for the bar (<<bialaphos resistance>>) resistance gene or pat (<<phosphinothricin acetyltransferase>>) gene, or else a sequence coding for the mutant or wild-type resistance gene nptII. More preferably still, the nucleic acid sequence coding for the selection agent is situated near the left border of the T-DNA.

[0039] According to another preferred embodiment of the present invention, the vector includes at least one expression cassette comprising an expression-promoting nucleic acid sequence operationally bound to a nucleic acid sequence to be expressed, coding for a polypeptide to be produced, itself bound to a transcription termination nucleic acid sequence. Preferably, the polypeptide to be produced is an enzyme or protein or derivative of the latter having activity in vitro and/or in man and/or in animals, said activity comprising digestive, pancreatic, biliary, antiviral, anti-inflammatory, pulmonary, anti-microbial, nutritional, cosmetic, structural, blood, cardiovascular, ophthalmic, antigenic, immunostimulatory and cerebral activity. Examples of such proteins are for example the insulins, interferons, gastric, pancreatic or biliary lipases, elastases, antiproteases such as alpha-1 antitrypsin, structural proteins such as collagen, transferrins such as lactoferrin, proteins derived from blood, such as haemoglobin, human albumin and the blood cofactors, and antioxidants such as superoxide dismutase,

[0040] According to a particularly preferred embodiment of the invention, the vector is presented in the form of a binary, linear or circular plasmid, chosen from the group consisting of the nucleic acid sequences identified by the numbers SEQ.ID03, SEQ.IDO4, SEQ.ID05, SEQ.ID06, SEQ.ID07, SEQ.ID08, SEQ.IDO9, SEQ.ID10, SEQ.ID11, SEQ.ID12, SEQ.ID13, SEQ.ID14, SEQ.ID15, SEQ.ID16, SEQ.ID17, SEQ.ID18, SEQ.ID19, SEQ.ID20, SEQ.ID21 and SEQ.ID22.

[0041] According to a particularly advantageous embodiment, each functional component of the vector can be cleaved independently of the other components. Preferably, each functional component can be cleaved independently of the other components by enzymatic digestion at the level of a first unique restriction site and a second unique restriction site which are present in 1 vector.

[0042] Another object of the present invention is an isolated nucleic acid sequence, characterized in that it corresponds to a nucleic acid sequence chosen from the group consisting of the nucleic acid sequences identified by the numbers SEQ.ID01, SEQ.ID02, SEQ.ID03, SEQ.IDO4, SEQ.ID05, SEQ.ID06, SEQ.ID07, SEQ.ID08, SEQ.IDO9, SEQ.ID10, SEQ.ID11, SEQ.ID12, SEQ.ID13, SEQ.ID14, SEQ.ID15, SEQ.ID16, SEQ.ID17, SEQ.ID18, SEQ.ID19, SEQ.ID20, SEQ.ID21 and SEQ.ID22.

[0043] Yet another object of the present invention is a cell containing a vector or a nucleic acid sequence such as described earlier. The cell is preferably a plant cell.

[0044] Yet another object of the present invention is a transgenic plant having stably integrated in its genome a vector or a nucleic acid sequence such as described earlier. The plant is preferably chosen from the dicotyledon species, such as potato, tobacco, cotton, lettuce, tomato, melon, cucumber, pea, rape, beetroot or sunflower, or the monocotyledon species, such as wheat, barley, oats, rice or maize.

[0045] Yet another object of the present invention is a propagule of a transgenic plant such as described earlier. The propagule is preferably a seed.

[0046] Yet another object of the present invention is a method for expression of a nucleic acid sequence, or gene, coding for a polypeptide to be produced, in a cell, characterized in that it comprises the stages consisting of:

[0047] transforming the cell with a vector or a nucleic acid sequence such as described earlier;

[0048] making a culture of the cell under conditions allowing the expression of a nucleic acid sequence, or gene, coding for the polypeptide to be produced. The cell is preferably a prokaryotic or eukaryotic cell. More preferably, the cell is a cell chosen from the group consisting of microbial cells, fungal cells, insect cells, animal cells and plant cells. Still more preferably, the cell is a plant cell.

[0049] Yet another object according to the present invention is a method for obtaining a transgenic plant or a propagule such as described earlier, characterized in that it comprises the stages consisting of:

[0050] transforming a plant cell with a vector comprising or a nucleic acid sequence according to any one of claims 1 to 24;

[0051] selecting the plant cell having the vector or nucleic acid sequence integrated therein;

[0052] propagating the transformed and selected plant cell, either by culture or by regeneration of whole chimeric or transgenic plants.

[0053] Thus, the new synthetic vectors, and preferably, binary plasmids, according to the invention have only regions indispensable for the functionality of the vector and for transgenesis. The applicant has found that they have a high replication rate. In addition, they can have a selection cassette near the left border, as well as rare restriction sites in their <<polylinkers>> (multiple cloning sites).

DESCRIPTION OF THE FIGURES

[0054] The invention will be understood better from the detailed description of the different embodiments which is given below in the form of examples, which are not limiting, and with reference to the drawing in the annex, in which:

[0055]FIG. 1 schematically represents a preferred minimal vector according to the present invention in the form of a plasmid identified by the reference pMRT1105, and with a length of 3508 base pairs;

[0056]FIG. 2 represents a schematic chart of a variant of the vector of FIG. 1 in the form of a plasmid identified by the reference pMRT1106, and with a length of 4098 base pairs;

[0057]FIG. 3 represents a schematic chart of a preferred vector according to the present invention, in the form of a binary plasmid identified by the reference pMRT1118, with a length of 5971 base pairs, and including a T-DNA comprising a selection cassette coding for resistance to an antibiotic, and a multiple cloning site (MCS);

[0058]FIG. 4 represents a preferred embodiment of the vector according to FIG. 3, the multiple cloning site (MCS) including yet other unique sites, the vector being in the form of a binary plasmid identified by the reference pMRT1119, and with a length of 6016 base pairs;

[0059] FIGS. 5 to 22 represent other preferred embodiments of the vector according to the invention, in the form of binary plasmids identified respectively by the references pMRT1121 (6017 base pairs), pMRT1122 (6016 base pairs), pMRT1155 (6017 base pairs), pMRT1175 (6767 base pairs), pMRT1176 (6767 base pairs), pMRT1191 (4805 base pairs), pMRT1192 (8654 base pairs), pMRT1193 (9143 base pairs), pMRT1195 (6865 base pairs), pMRT1196 (8654 base pairs), pMRT1201 (7943 base pairs), pMRT1202 (5614 base pairs), pMRT1203 (7503 base pairs), pMRT1204 (9390 base pairs), pMRT1205 (7503 base pairs), pMRT1206 (9390 base pairs), pMRT1210 (10003 base pairs) and pMRT1212 (8987 base pairs);

[0060]FIG. 23 graphically represents a comparison between the protein expression capacities of the synthetic vectors according to the present invention in comparison to a known vector system;

[0061] FIGS. 24 to 28 represent further embodiments of vectors according to the present invention, in the form of binary plasmids identified by the references pMRT1334 (9688 bp), pMRT1335 (15208 bp), pMRT1336 (9285 bp), pMRT1337 (8289 bp), pMRT1341 (14108 bp), pMRT1342 (15077 bp).

[0062] In the figures, the abbreviations have the following meanings:

[0063] ori RK2: ori V of pRK2 of Escherichia coli with a broad host range, unstable RK2 replicon producing a low number of copies;

[0064] ori ColEI: the origin of replication ColE1 v of Escherichia coli;

[0065] npt III gene: coding for neomycin phosphotransferase conferring resistance to kanamycin

[0066] npt II gene: coding for neomycin phosphotransferase conferring resistance to kanamycin

[0067] trfA: trfA locus (1481 bp) originating from pRK2 allowing the production of 2 proteins, P285 and P382, which enhance the replication of the plasmid by binding to the origin of replication;

[0068] Tnos: nos (nopaline synthetase) terminator;

[0069] Pnos: nos (nopaline synthetase) promoter;

[0070] LB: left border of a T-DNA;

[0071] RB: right border of a T-DNA;

[0072] MCS: multiple cloning site, S:XXX indicating the number of the starting base, E:XXX indicating the number of the end base of the MCS, the list starting with the first restriction site at the top and ending with the last restriction site at the bottom, in the direction 5′>3′;

[0073] polyA 35S: transcription termination (polyadenylation) signal;

[0074] gus gene: gene coding for beta-glucuronidase;

[0075] IA: the actin intron of rice;

[0076] PA: actin promoter of rice;

[0077] Phmwg: <<high molecular weight glutenin>> promoter of wheat;

[0078] bar (<<bialaphos resistance>>) gene: gene coding for the enzyme phosphinothricin acetyltransferase conferring resistance to glufosinate;

[0079] ep35S: <<enhanced promoter>> of the 35S ribosome.

EXAMPLES

[0080] In the detailed description which follows, all the enzymatic digestions by restriction enzymes were performed in accordance with the recommendations of the supplier New England Biolabs. The purifications with the aid of the <<QIAquick Gel Extraction>> and <<QIAquick PCR Purification>> kits were carried out in accordance with the recommendations of the supplier QIAGEN. The <<Concert Rapid PCR Purification System>> kit was used in accordance with the instructions of the supplier GIBCO BRL Life Technologies. The <<GeneAmp PCR System 9700>> thermocycler used is marketed by Perkin Elmer Applied Biosystems.

Example 1

[0081] 1. Synthesis of pMRT1105

[0082] A clean synthetic vector according to the invention is presented preferably in the form of a minimal plasmid pMRT1105 (3508 bp) and is made up of the following elements:

[0083] ori RK2: ori V of pRK2 of Escherichia coli with a broad host range, unstable RK2 replicon producing a small number of copies (643 bp).

[0084] npt III gene: confers resistance to kanamycin (bacterial selection marker, 1337 bp).

[0085] TrfA: trfA locus (1481 bp) originating from pRK2, allowing the production of 2 proteins, P285 and P382, which enhance the replication of the plasmid by binding to the origin of replication.

[0086] The plasmid pMRT1105 results from the assembling of the fragments obtained by splicing overlap extension for <<ori RK2>> and a <<part of npt III>>, of the fragment corresponding to a <<part of trfA>> produced by PCR (<<polymerase chain reaction>>) amplification and of <<parts of trfA and npt III>> isolated by enzymatic digestion.

[0087] 1.1. Synthesis of the Fragment Carrying <<ori RK2 and Part of npt III>>

[0088] The AvrII-StuI fragment (654 bp) carrying <<ori RK2>> (643 bp) was amplified by PCR from 5 ng of pBin19 matrix DNA with the aid of 20 pmoles of each of the 2 oligodeoxynucleotides, 5′ AACCTAGGAAAAGACCGAGCGCCTTTGC 3′ (SEQ.ID23) containing the AvrII restriction site and 5′ CGGATTAATGGTAGAAGGCCTTTCACGGGAGGGTTCGAGAAGG 3′ (SEQ.ID24) possessing the StuI restriction site, in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO₄ pH 9.1, 18 mM (NH₄)₂ SO₄, 1.8 mM MgSO₄ and 2 U of ELONGASE enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 30 sec., hybridization at 55° C. for 30 sec. and elongation at 68° C. for 45 sec. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. Forty μl of the PCR reaction medium were then subjected to the action of 12.5 U of the Klenow fragment (New England Biolabs) in the presence of 2 μl of each of the dNTPs at 10 mM. The reaction was carried out at 37° C. for 10 min. The PCR product so treated was then isolated by 2% agarose gel electrophoresis in TBE buffer (90 mM Tris-HCl, 2 mM Na₂-EDTA, 90 mM boric acid, pH 8.0) and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA was recovered in 30 μl of H₂O.

[0089] The StuI-BstXI fragment (363 bp) carrying <<part of npt III>> (344 bp) was amplified and treated in the same way as the <<ori RK2>> fragment except that the 2 oligodeoxynucleotides used are 5′ TGAAAGGCCTTCTACCATTAATCCGCGATAAACCCAGCGAACC 3′ (SEQ.ID25) containing an StuI restriction site and 5′ ATGCATCCAAAATTTTGGTAGAATTTACAAGCTATAAGGTTATTGTCCTGGG 3′ (SEQ.ID26) possessing the BstXI restriction site.

[0090] The 2 fragments carrying <<ori RK2>> and <<part of npt III>> were then assembled by splicing overlap extension in order to obtain the fragment <<ori RK2 and part of npt III>>. To do this, a PCR amplification was performed from 7.5 μl of each of the treated PCR products corresponding to <<ori RK2>> and <<part of npt III>> with the aid of 20 pmoles of each of the oligodeoxynucleotide 5′ (SEQ.ID23) 5′ AACCTAGGAAAAGACCGAGCGCCTTTGC 3′ and (SEQ.ID26) 5′ ATGCATCCAAAATTTTGGTAGAATTTACAAGCTATAAGGTTATTGTC CTGGG 3′

[0091] in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO₄ pH 9.1, 18 mM (NH₄)₂ SO₄, 1.8 mM MgSO₄ and 2 U of ELONGASE enzyme in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 30 sec., hybridization at 62° C. for 30 sec. and elongation at 68° C. for 45 sec. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. Forty μl of the PCR reaction medium were then subjected to 1.5% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA, corresponding to the fragment carrying <<ori RK2>> and <<part of npt III>>, was recovered in 30 μl of H2O. Next, 27 μl of this DNA were hydrolysed by BstXI followed by AvrII, then purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 30 μl of H₂O.

[0092] 1.2. Synthesis of the Fragment Carrying a <<Part of TrfA>>

[0093] The NdeI-AvrII fragment (295 bp) carrying <<part of trfA>> (295 bp) was amplified and treated in the same way as the fragment <<ori RK2>> except that the 2 oligodeoxynucleotides used are 5′ ATCGACGAGGAAATCGTCGTGCTGTTTGC 3′ (SEQ.ID27) situated upstream of the NdeI site and 5′ AAACCTAGGAAATGCCAGTAAAGCGCTGGC 3′ (SEQ.ID28) possessing the AvrII restriction site. The DNA fragments corresponding to a <<part of trfA>> originating from the PCR amplification are then purified with the aid of the <<QIAquick PCR Purification>> kit, recovered in 30 μl of H2O, hydrolysed by AvrII and NdeI, repurified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 30 μl of H₂O.

[0094] 1.3. Synthesis of the Fragment Carrying the <<Parts of TrfA and npt III>>

[0095] The BstXI-NdeI fragment (2196 bp) carrying the <<parts of trfA and npt III>> (2196 bp) was isolated from 9 μg of pBin19 DNA by enzymatic digestion by BstXI, purified with the aid of the <<QIAquick PCR Purification>> kit, then hydrolysed by NdeI. The DNA fragment was then isolated by 0.9% agarose gel electrophoresis in TBE buffer, purified with the aid of the <<QIAquick Gel Extraction>> kit and recovered in 30 μl of H2O.

[0096] 1.4. Obtaining pMRT1105

[0097] The 3 fragments, <<ori RK2 and part of npt III>>, <<parts of trfA and npt III>> and <<part of trfA>>, were ligated. To do this, the reaction mixture containing 7.5 μl of the digested fragments corresponding to <<ori RK2 and part of npt III>> and <<parts of trfA and npt III>>, and 11 μl of the digested fragment corresponding to <<part of trfA>>, was concentrated with the SpeedVac AES1000 (SAVANT) in order to achieve a volume of 8 μl. After that, 1 μl of T4 DNA ligase×10 buffer (New England Biolabs) and 400 units of T4 DNA ligase enzyme (New England Biolabs) were added. The ligation was carried out by a PCR reaction made up of 200 cycles each consisting of 2 stages, one at 30° C. for 30 sec. and the other at 10° C. for 30 sec., in the <<GeneAmp PCR System 9700>> thermocycler. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed (Hanahan, 1983). The plasmid DNA of the clones obtained, selected on Luria-Bertani medium (LB, bactotryptone 10 g/l, yeast extract 5 g/l, NaCl 10 g/l, Agar 15 g/l, pH 7.5) supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method (Birnboim and Doly, 1979) and verified by enzymatic digestions and by sequencing. The resulting plasmid selected was called pMRT1105 (3508 bp) and is represented in FIG. 1. Its complete sequence SEQ.ID01 is given in the sequence listing.

[0098] 2. Synthesis of pMRT1106

[0099] The plasmid pMRT1106 (4098 bp) differs from pMRT1105 by the addition of the origin of replication ColE1 of Escherichia coli (<<ori ColE1>>).

[0100] The fragment, carrying <<ori ColE1>> (590 bp), was isolated from the plasmid pBR322 marketed by New England Biolabs. The plasmid (5 μg) was digested by NdeI, purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 30 μl of TE buffer (10 mM Tris-HCl, 1 mM Na₂-EDTA, pH 8.0). The plasmid thus linearized was subjected to the action of 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl, pH 7.5-500 mM MgCl₂, 6 μl of 1M dithiothreitol, 6 μl of each of the 10 mM dNTPs in a reaction volume of 120 μl at 37° C. for 30 min. The linearized plasmid so treated was purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 30 μl of H2O. It was then digested by AlwNI in order to isolate the fragment carrying <<ori ColE1>>, purified with the aid of the <<QIAquick PCR Purification>> kit and subjected to the action of 6 units of T4 DNA polymerase (New England Biolabs) in a reaction medium of 120 μl in the presence of 12 μl of T4 DNA polymerase×10 buffer, 4 μl of 10 mM dNTP and 6 μl of BSA 1 mg/ml. The reaction was carried out at 37° C. for 30 min. The DNA fragment was then isolated by 1.2% agarose gel electrophoresis in TBE buffer, purified with the aid of the <<QIAquick Gel Extraction>> kit and recovered in 50 μl of H₂O. This DNA fragment was then inserted into the plasmid pMRT1105 (2 μg) digested by StuI, purified with the aid of the <<QIAquick PCR Purification>> kit, dephosphorylated by 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, and purified with the aid of the <<QIAquick PCR Purification>> kit. The ligation by PCR reaction was carried out with 10 ng of digested dephosphorylated pMRT1105 plasmid and 100 ng of DNA fragments carrying <<ori ColE1>> in a reaction medium of 10 μl in the presence of 1 μl of T4 DNA ligase×10 buffer (New England Biolabs) and 400 units of T4 DNA ligase enzyme (New England Biolabs). It is made up of 180 cycles consisting of 2 stages, one of 10° C. for 30 sec. and the other of 30° C. for 30 sec. in the <<GeneAmp PCR System 9700>> thermocycler. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed (Hanahan, 1983). The validity of the clones obtained was verified by a PCR test on bacterial colonies using 10 pmol of each of the 2 oligodeoxynucleotides, 5′ (SEQ.ID23) 5′ AACCTAGGAAAAGACCGAGCGCCTTTGC 3′ and (SEQ.ID26) 5′ ATGCATCCAAAATTTTGGTAGAATTTACAAGCTATAAGGTTATTGTC CTGGG 3′.

[0101] in a reaction medium of 24 μl in the presence of 22 μl of SuperMix PCR (GIBCO BRL Life Technologies). The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 5 min., the DNA was subjected to 30 cycles each made up of the stages of denaturation at 94° C. for 30 sec., hybridization at 60° C. for 30 sec. and elongation at 72° C. for 30 sec. Then, in the last cycle, the elongation was continued at 72° C. for 7 min. The PCR reaction medium was then subjected to 1% agarose gel electrophoresis in TBE buffer. The insertion of the sequence <<ori ColE1>> was visualized by the presence of a fragment of about 1.6 kbp. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method (Birnboim and Doly, 1979) and verified by enzymatic digestions and by sequencing. The resultant plasmid selected was called pMRT1106 (4098 bp) and is represented in FIG. 2. Its complete sequence SEQ.ID02 is given in the sequence listing.

[0102] 3. Synthesis of pMRT1118

[0103] The plasmid pMRT1118 (5971 bp) differs from pMRT1106 by the introduction of a clean transfer DNA (T-DNA) in pMRT1106. This clean T-DNA is made up of the expression cassette of the mutant nptII gene (Frisch et al., 1995) under the control of the promoter and terminator of the nopaline synthase gene (nos, Depicker et al., 1982) of Agrobacterium tumefaciens placed between the right (RB) and left border (LB) of the plasmid pTiT37 of Agrobacterium tumefaciens nopaline strain.

[0104] 3.1 Synthesis of the Fragment Carrying <<End nptII-Tnos-LB>>

[0105] 3.1.1. Obtaining the Fragment Carrying LB

[0106] The AvrII-SmaI fragment (173 bp) carrying LB (151 bp) was amplified by PCR from 5 ng of pBin19 matrix DNA with the aid of 20 pmoles of each of the 2 oligodeoxynucleotides, 5′ TTCCTAGGTTGACGTCTTCTGATGGGCTGCCTGTATCG 3′ (SEQ.ID29) containing the AvrII and AatII restriction sites, and 5′ CCTATGGATATCCCCCGGGGGATAGCCCCAGTACATTAAAAACGTCC 3′ (SEQ.ID30) possessing the SmaI restriction site, in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO₄ pH 9.1, 18 mM (NH₄)₂ SO₄, 1.8 mM MgSO₄ and 2 U of ELONGASE enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 30 sec., hybridization at 55° C. for 30 sec. and elongation at 68° C. for 45 sec. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. Forty μl of the PCR reaction medium were then subjected to the action of 12.5 U of the Klenow fragment (New England Biolabs) in the presence of 2 μl of each of the dNTPs at 10 mM. The reaction was carried out at 37° C. for 10 min. The PCR product so treated was then isolated by 2% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA was recovered in 50 μl of H2O.

[0107] 3.1.2. Obtaining the Fragment Carrying the nos Terminator (Tnos)

[0108] The SmaI-BspEI fragment (288 bp) carrying the nos terminator (256 bp) was amplified and treated in the same way as the fragment carrying LB except that the 2 oligodeoxynucleotides used are 5′CTATCCCCCGGGGGATATCCATAGGCCCGATCTAGTAACATAGATGAC 3′ (SEQ.ID31) containing a SmaI restriction site and 5′ GCGCACTTGGGCCCATAGCTCGACGAACGATCGTTCAAACATTTGGC 3′ (SEQ.ID32), possessing the Bsp120I restriction site.

[0109] 3.1.3. Obtaining the Fragment Carrying <<End of the nptII>> Gene (<<End nptII>>)

[0110] The fragment (221 bp) carrying <<end nptII>> (221 bp) was amplified and treated in the same way as the fragment carrying LB except that the 2 oligodeoxynucleotides used are 5′ TTCGTCGAGCTATGGGCCCAAGTGCGCATCCCGTGGGCGAAGAACTC 3′ (SEQ.ID33) containing a Bsp120I restriction site and 5′ TTCTTGACGAGTTCTTCTGAGCGGG 3′ (SEQ.ID34) downstream of BstBI.

[0111] 3.1.4. Obtaining the Fragment <<End nptII-Tnos-LB>>

[0112] The fragments, <<LB>>, <<Tnos>> and <<end nptII>>, were assembled by splicing overlap extension in 2 stages:

[0113] assembly of the fragments <<LB>> and Tnos>> resulting in a fragment <<Tnos-LB>>,

[0114] assembly of the fragment <<Tnos-LB>> and of the fragment <<end nptII>> resulting in a fragment <<end nptII-Tnos-LB>>.

[0115] To do this, a first PCR amplification was carried out from 10 μl of each of the PCR products treated corresponding to <<LB>> and <<Tnos>>, with the aid of 20 pmoles of each of the oligodeoxynucleotides, 5′ TTCCTAGGTTGACGTCTTCTGATGGGCTGCCTGTATCG 3′ (SEQ.ID29) and 5′ GCGCACTTGGGCCCATAGCTCGACGAACGATCGTTCAAACATTTGGC 3′ (SEQ.ID32), in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO₄ pH 9.1, 18 mM (NH₄)₂ SO₄, 1.8 mM MgSO₄ and 2 U of ELONGASE enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 45 sec., hybridization at 62° C. for 45 sec. and elongation at 68° C. for 1 min. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. Forty μl of the PCR reaction medium were then subjected to the action of 12.5 U of the Klenow fragment (New England Biolabs) in the presence of 2 μl of each of the dNTPs at 10 mM. The reaction was carried out at 37° C. for 10 min. The PCR product so treated, corresponding to the fragment <<Tnos-LB>> (477 bp), was then isolated by 2% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA was recovered in 30 μl of H₂O.

[0116] A second PCR amplification was then carried out from 7 μl of each of the PCR products treated, corresponding to <<end nptII>> and <<Tnos-LB>>, with the aid of 20 pmoles of each of the oligodeoxynucleotides, 5′ TTCCTAGGTTGACGTCTTCTGATGGGCTGCCTGTATCG 3′ (SEQ.ID29) and 5′ TTCTTGACGAGTTCTTCTGAGCGGG 3′ (SEQ.ID34), in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO4 pH 9.1, 18 mM (NH4)2 SO4, 1.8 mM MgSO4 and 2 U of ELONGASE enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 45 sec., hybridization at 60° C. for 45 sec. and elongation at 68° C. for 1 min. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. This reaction is repeated 3 times for the PCR products treated, corresponding to <<end nptII>> and <<Tnos-LB>>. The PCR reaction medium was then subjected to 2% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA fragment (672 bp), corresponding to <<end nptII-Tnos-LB>>, was recovered in 100 μl of H2O. Next, 95 μl of this DNA were hydrolysed by AvrII, purified with the aid of the <<QIAquick PCR Purification>> kit, digested by BstBI, purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 50 μl of H₂O. The 631 bp AvrII-BstBI fragment carries the sequence <<end nptII-Tnos-LB>>.

[0117] 3.2. Synthesis of the Fragment Carrying <<End of the nos Promoter (Pnos) and Start of the nptII Gene>> (<<End Pnos-st. nptII>>)

[0118] The fragment (1023 bp) carrying <<end Pnos-st. nptII>> was amplified and treated in the same way as the fragment carrying LB except that the 2 oligodeoxynucleotides used are 5′ GGAATCGAAATCTCGTGATGGCAGG 3′ (SEQ.ID39) and 5′ ATTATTGCGCGTTCAAAAGTCGCC 3′ (SEQ.ID40), and that the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 45 sec., hybridization at 55° C. for 45 sec. and elongation at 68° C. for 1 min. The amplification was repeated for 2 samples of pBin19 DNA.

[0119] 3.3. Synthesis of the Fragment <<End Pnos-nptII-Tnos-LB>>

[0120] The fragments, <<end Pnos-st. nptII>> and <<end nptII-Tnos-LB>>, were assembled by splicing overlap extension in order to produce a fragment <<end Pnos-nptII-Tnos-LB>>.

[0121] To do this, a PCR amplification was carried out from 5 μl of each of the PCR products treated, corresponding to <<end Pnos-st. nptII>> and <<end nptII-Tnos-LB>>, with the aid of 20 pmoles of each of the oligodeoxynucleotides, 5′ TTCCTAGGTTGACGTCTTCTGATGGGCTGCCTGTATCG 3′ (SEQ.ID29) and 5′ ATTATTGCGCGTTCAAAAGTCGCC 3′ (SEQ.ID40), in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO₄ pH 9.1, 18 mM (NH₄)₂ SO₄, 1.8 mM MgSO₄ and 2 U of ELONGASE enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 45 sec., hybridization at 55° C. for 45 sec. and elongation at 68° C. for 1 min. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. This reaction was repeated 5 times for each of the PCR products treated, corresponding to <<end Pnos-st. nptII>> and <<end nptII-Tnos-LB>>. The PCR reaction medium was then subjected to 0.7% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA fragment (1608 bp) corresponding to <<end Pnos-nptII-Tnos-LB>>, was recovered in 50 μl of H2O. Next, this DNA was subjected to the action of 62.5 U of the Klenow fragment (New England Biolabs) in the presence of 15 μl of the Klenow fragment×10 buffer (New England Biolabs) and 10 μl of each of the dNTPs at 10 mM. The reaction was carried out at 37° C. for 10 min. The DNA so treated was then purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 50 μl of H₂O.

[0122] 3.4. Synthesis of the Fragment Carrying <<RB-MCS-st. Pnos>>

[0123] 3.4.1. Obtaining the Fragment Carrying <<RB and Multiple Cloning Site (MCS)>> (<<RB-MCS>>)

[0124] The fragment (210 bp) carrying <<RB-MCS>> was amplified and treated in the same way as the fragment carrying LB except that the 2 oligodeoxynucleotides used are 5′ CGGTACCGAAGCTTTGAATTCACTCGAGCAGATTGTCGTTTCCCGCC 3′ (SEQ.ID35) possessing the restriction sites KpnI, HindIII, EcoRI and XhoI, and 5′ TATCCTAGGAACCGGTAAACCCTGTGGTTGGCATGC 3′ (SEQ.ID36) possessing the restriction sites AvrII and AgeI.

[0125] 3.4.2. Obtaining the Fragment Carrying <<Multiple Cloning Site (MCS) and Start of the nos Promoter (Pnos)>> (<<MCS-st. Pnos>>)

[0126] The fragment (209 bp) carrying <<MCS-st. Pnos>> was amplified and treated in the same way as the fragment carrying LB except that the 2 oligodeoxynucleotides used are 5′ ATATGAGACTCTAATTGGATACCGAGGGG 3′ (SEQ.ID37) and 5′ GCTCGAGTGAATTCAAAGCTTCGGTACCGTTGAAGGAGCCACTCAGCCG 3′ (SEQ.ID38) possessing the restriction sites XhoI, EcoRI, HindIII and KpnI.

[0127] 3.4.3. Obtaining the Fragment Carrying <<RB-MCS-st. Pnos>>

[0128] The fragments, <<RB-MCS>> and <<MCS-st. Pnos>>, were assembled by splicing overlap extension in order to produce a fragment <<RB-MCS-st. Pnos>>.

[0129] To do this, a PCR amplification was carried out from 12 μl of each of the PCR products treated, corresponding to <<RB-MCS>> and <<MCS-st. Pnos>>, with the aid of 20 pmoles of each of the oligodeoxynucleotides, 5′ ATATGAGACTCTAATTGGATACCGAGGGG 3′ (SEQ.ID37) and 5′ TATCCTAGGAACCGGTAAACCCTGTGGTTGGCATGC 3′ (SEQ.ID36), in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO4 pH9.1, 18 mM (NH4)2 SO4, 1.8 mM MgSO4 and 2 U of ELONGASE enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 30 sec., hybridization at 60° C. for 30 sec. and elongation at 68° C. for 45 sec. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. This reaction was repeated for the remaining 3×12 μl of each of the PCR products treated, corresponding to <<RB-MCS>> and <<MCS-st. Pnos>>. The PCR reaction medium was then subjected to 2% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit (QIAGEN). The DNA fragment (390 bp) corresponding to <<RB-MCS-st. Pnos>>, was recovered in 100 μl of H2O. Next, 95 μl of this DNA was hydrolysed by AvrII, purified with the aid of the <<QIAquick PCR Purification>> kit, digested by Bsu36I, purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 50 μl of H₂O. The 295 bp AvrII-Bsu36I fragment carries the sequence <<RB-MCS-st. Pnos>>.

[0130] 3.5. Synthesis of the T-DNA

[0131] The fragments, <<RB-MCS-st. Pnos>> and <<end Pnos-nptII-Tnos-LB>>, were assembled by splicing overlap extension in order to produce a fragment <<RB-MCS-Pnos-nptII-Tnos-LB>> which corresponds to the T-DNA (1883 bp).

[0132] To do this, a PCR amplification was carried out from 4 μl of the PCR product treated corresponding to <<RB-MCS-st. Pnos>> and from 5 μl of the PCR product treated corresponding to <<end Pnos-nptII-Tnos-LB>>, with the aid of 20 pmoles of each of the oligodeoxynucleotides, 5′ TTCCTAGGTTGACGTCTTCTGATGGGCTGCCTGTATCG 3′ (SEQ.ID29) and 5′ TATCCTAGGAACCGGTAAACCCTGTGGTTGGCATGC 3′ (SEQ.ID36), in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO4 pH 9.1, 18 mM (NH4)2 SO4, 1.8 mM MgSO4 and 2 U of ELONGASE enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. The PCR amplification reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 45 sec., hybridization at 55° C. for 45 sec. and elongation at 68° C. for 1 min. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. This reaction was repeated 10 times for each of the PCR products treated, corresponding to <<RB-MCS-st. Pnos>> and <<end Pnos-nptII-Tnos-LB>>. The PCR reaction medium was then subjected to 0.8% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA fragment (1883 bp) corresponding to the T-DNA was recovered in 100 μl of H2O. Next, this T-DNA was hydrolysed by AvrII (1873 bp fragment), purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 100 μl of H₂O.

[0133] 3.6. Obtaining pMRT1118

[0134] The binary plasmid pMRT1118 (5971 bp) results from the introduction of the T-DNA fragment digested by AvrII into the AvrII site of the dephosphorylated pMRT1106 plasmid.

[0135] To do this, the pMRT1106 plasmid DNA (5 μg) was digested by AvrII, purified with the aid of the <<QIAquick PCR Purification>> kit, then dephosphorylated by 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, isolated by 0.6% agarose gel electrophoresis in TBE buffer, purified with the aid of the <<QIAquick Gel Extraction>> kit, dephosphorylated a second time with the calf intestinal alkaline phosphatase enzyme under the aforesaid conditions, and finally purified with the aid of the <<QIAquick PCR Purification>> kit and recovered in 50 μl of H₂O.

[0136] The ligation by PCR reaction was carried out with 32.5 ng of digested dephosphorylated pMRT1106 plasmid and 50 ng of digested T-DNA fragments in a reaction medium of 10 μl in the presence of 1 μl of T4 DNA ligase×10 buffer (New England Biolabs) and 400 units of T4 DNA ligase enzyme (New England Biolabs). It is made up of 180 cycles consisting of 2 stages, one of 10° C. for 30 sec. and the other of 30° C. for 30 sec., in the <<GeneAmp PCR System 9700>> thermocycler.

[0137] The bacteria, Escherichia coli DH5 which had previously been made competent, were transformed (Hanahan, 1983). The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method (Birnboim and Doly, 1979) and verified by enzymatic digestions and by sequencing. The resultant plasmid selected was called pMRT1118 (FIG. 3). Its complete sequence SEQ.ID03 is given in the sequence listing.

[0138] 4. Synthesis of pMRT1119

[0139] The plasmid pMRT1119 (6016 bp) differs from pMRT1118 by the addition of additional unique restriction sites in the multiple cloning site MCS of pMRT1118.

[0140] 4.1. Obtaining the Additional Unique Restriction Sites

[0141] The additional unique restriction sites (XbaI, SalI, PacI, BamHI, MluI, HpaI and FseI) were created by hybridization between the 2 oligodeoxynucleotides, 5′AGCTTGGCCGGCCGTTAACACGCGTGGATCCTTAATTAAGTCGACTCTAGAG 3′ (SEQ.ID41) and 5′ AATTCTCTAGAGTCGACTTAATTAAGGATCCACGCGTGTTAACGGCCGGCCA 3′ (SEQ.ID42). To do this, 5 μg of each of the 2 oligodeoxynucleotides were mixed and held at 85° C. for 1 min., followed by a progressive reduction of the temperature to 80° C. for 5 min., then a slow reduction of the temperature to 60° C. in a water bath, and finally a rapid reduction of the temperature to the ambient temperature outside the water bath.

[0142] 4.2. Obtaining pMRT1119

[0143] The binary plasmid pMRT1119 (6016 bp) results from the introduction of the sequence carrying the unique restriction sites into the HindIII and EcoRI sites of the pMRT1118 plasmid.

[0144] To do this, the pMRT1118 plasmid DNA (5 μg) was doubly digested by HindIII and EcoRI, purified with the aid of the <<QIAquick PCR Purification>> kit, and recovered in 50 μl of H2O.

[0145] The ligation by PCR reaction was carried out with 75 ng of digested pMRT1118 plasmid and 500 ng of fragments carrying the unique restriction sites (described in 4.1.) in a reaction medium of 10 μl in the presence of 1 μl of T4 DNA ligase×10 buffer (New England Biolabs) and 400 units of T4 DNA ligase enzyme (New England Biolabs). It is made up of 180 cycles consisting of 2 stages, one of 10° C. for 30 sec. and the other of 30° C. for 30 sec. in the <<GeneAmp PCR System 9700>> thermocycler.

[0146] The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed (Hanahan, 1983). The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method (Birnboim and Doly, 1979) and verified by enzymatic digestions and by sequencing. The resultant plasmid selected was called pMRT1119 (FIG. 4). Its complete sequence SEQ.ID04 is given in the sequence listing.

[0147] 5. Synthesis of pMRT1121

[0148] The plasmid pMRT1121 (6017 bp) results from the insertion into pMRT1119 of a unique restriction site, BspEI, between the nopaline synthase promoter of Agrobacterium tumefaciens (Pnos) and the mutant nptII gene.

[0149] The BspEI site was inserted by the assembly by splicing overlap extension of two fragments obtained by PCR amplification.

[0150] 5.1. Synthesis of the Fragment Carrying “Part of nptII and BspEI Site”

[0151] The 892 bp fragment carrying “part of nptII and BspEI site” was amplified by PCR from 5 ng of pBin19 matrix DNA with the aid of 20 pmoles of each of the 2 oligodeoxynucleotides, 5′ GGAATCGAAATCTCGTGATGGCAGG 3′ (SEQ.ID39) and 5′ TAATCTGCATCCGGATCTGGATCGTTTCGC 3′ (SEQ.ID43) carrying the BspEI site, in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO4 pH 9.1, 18 mM (NH4)2 SO4, 1.8 mM MgSO4 and 2 U of eLONGase enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. This reaction was repeated. The PCR amplification reaction was carried out in a “GeneAmp PCR System 9700” thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 45 sec., hybridization at 55° C. for 45 sec. and elongation at 68° C. for 1 min. Then, in the last cycle, the elongation was continued at 68° C. for 3 min. The PCR product so obtained was isolated by 2% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA was recovered in 50 μl of H₂O.

[0152] 5.2. Synthesis of the Fragment Carrying “BspEI Site-MCS”

[0153] The fragment (250 bp) carrying “BspEI site-MCS” was amplified by PCR from 5 ng of pMRT1118 matrix DNA with the aid of 20 pmoles of each of the 2 oligodeoxynucleotides, 5′ GCTCGAGTGAATTCAAAGCTTCGGTACCGTTGAAGGAGCCACTCAGCCG 3′ (SEQ.ID38) and 5′ ACGATCCAGATCCGGATGCAGATTATTTGG 3′ (SEQ.ID44) carrying the BspEI site. The conditions of PCR amplification and treatment of the PCR fragment obtained are the same as described in 5.1.

[0154] 5.3. Synthesis of the Fragment Carrying “Part nptII-MCS”

[0155] The 1117 bp fragment carrying “part nptII-MCS” results from the assembly of the 2 PCR fragments, “part nptII-BspEI site” and “BspEI site-MCS”, by splicing overlap extension.

[0156] To do this, a PCR amplification was carried out from 7.5 μl of each of the PCR products treated, corresponding to “part nptII-BspEI site” and “BspEI site-MCS”, with the aid of 20 pmoles of each of the 2 oligodeoxynucleotides, 5′ GGAATCGAAATCTCGTGATGGCAGG 3′ (SEQ.ID39) and 5′ GCTCGAGTGAATTCAAAGCTTCGGTACCGTTGAAGGAGCCACTCAGCCG 3′ (SEQ.ID38), in the presence of 200 μM of each of the dNTPs, 60 mM Tris-SO₄ pH 9.1, 18 mM (NH4)2 SO4, 1.8 mM MgSO₄ and 2 U of eLONGase enzyme (GIBCO BRL Life Technologies) in a final reaction medium of 50 μl. This reaction was repeated 4 times. The PCR amplification reaction was carried out in a “GeneAmp PCR System 9700” thermocycler. After denaturation at 94° C. for 3 min., the DNA was subjected to 15 cycles each made up of the stages of denaturation at 94° C. for 45 sec., hybridization at 62° C. for 45 sec. and elongation at 68° C. for 1 min. Then, in the last cycle, the elongation was continued at 68° C. for 7 min. The PCR product so obtained was isolated by 1% agarose gel electrophoresis in TBE buffer and purified with the aid of the “QIAquick Gel Extraction” kit. The DNA was recovered in 50 μl of H2O, digested by Bsu36I and PstI, and subjected to 2% agarose gel electrophoresis in TEB buffer. The 315 bp DNA fragment was isolated and purified with the aid of the “QIAquick Gel Extraction” kit.

[0157] 5.4. Obtaining pMRT1121

[0158] The 315 bp DNA fragment Bsu36I-PstI, which carries the BspEI site, was ligated to the Bsu36I and PstI sites of the binary plasmid pMRT1119.

[0159] The plasmid pMRT1119 was previously digested by Bsu36I and PstI, subjected to 1% agarose gel electrophoresis in TEB buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA was recovered in 50 μl of H₂O, dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, and purified with the aid of the “QIAquick PCR Purification” kit.

[0160] The ligation by PCR reaction was carried out with 100 ng of digested dephosphorylated pMRT1119 plasmid and 30 ng of digested DNA fragments (315 bp) in a reaction medium of 10 μl in the presence of 1 μl of T4 DNA ligase×10 buffer (New England Biolabs) and 400 units of T4 DNA ligase enzyme (New England Biolabs). It is made up of 180 cycles consisting of 2 stages, one of 10° C. for 30 sec. and the other of 30° C. for 30 sec., in a “GeneAmp PCR System 9700” thermocycler. The bacteria, Escherichia coli DH5 or SCS110 (deficient in Dam and Dcm methylases), which had previously been made competent, were transformed (Hanahan, 1983). The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1121 (FIG. 5). Its complete sequence SEQ.ID05 is given in the sequence listing.

[0161] 6. Synthesis of pMRT1122

[0162] The plasmid pMRT1122 (6016 bp) results from the introduction into pMRT1119 of a point mutation in the mutant nptII gene in order to restore the BglII restriction site and thus lead to the obtaining of the wild-type nptII gene.

[0163] To do this, the BglII restriction site was restored in the mutant nptII gene of pMRT1119 by directed mutagenesis in accordance with the Michael procedure (1994).

[0164] The oligodeoxynucleotide 5′ ATGGGTCACGACGAGATCTTCGCCGTCGGG 3′ (SEQ.ID45) was previously phosphorylated by subjecting 600 pmoles of the oligodeoxynucleotide to the action of 90 units of T4 kinase (Amersham) in the presence of 30 μl of T4 kinase×10 buffer (Amersham) and 3 μl of 100 mM ATP in a final reaction medium of 300 μl at 37° C. for 30 min. The oligodeoxynucleotide so treated was purified with the aid of the <<Qiaquick Removal Nucleotide>> (QIAGEN) kit in accordance with the supplier's recommendations.

[0165] The ligation by PCR was then carried out from 10 ng of pBIN19 matrix with the aid of 200 pmoles of each of the oligodeoxynucleotides, 5′ GGAATCGAAATCTCGTGATGGCAGG 3′ (SEQ.ID39), 5′ ATGGGTCACGACGAGATCTTCGCCGTCGGG 3′ (SEQ.ID45), which was phosphorylated, including the BglII restriction site, and 5′ ATTATTGCGCGTTCAAAAGTCGCC 3′ (SEQ.ID40), in the presence of 400 μM of each of the dNTPs, 10 μl of Taq DNA ligase×10 buffer (New England BioLabs), 5 units of Vent DNA Polymerase (New England BioLabs) and 40 units of Taq DNA ligase (New England BioLabs) in a final reaction medium of 100 μl. The PCR ligation reaction was carried out in the <<GeneAmp PCR System 9700>> thermocycler by carrying out the following three successive phases: the first phase consisted of a cycle made up of the stages of denaturation at 94° C. for 5 min., hybridization at 50° C. for 1 min. and elongation at 65° C. for 4 min.; the second phase was made up of 28 cycles each comprising the stages of denaturation at 94° C. for 30 sec., hybridization at 50° C. for 1 min. and elongation at 65° C. for 4 min.; and, finally, the last phase consisted of a cycle made up of the stages of denaturation at 94° C. for 30 sec., hybridization at 50° C. for 1 min. and elongation at 65° C. for 15 min. The PCR reaction medium was then subjected to 0.8% agarose gel electrophoresis in TBE buffer and purified with the aid of the <<QIAquick Gel Extraction>> kit. The DNA fragments (1023 bp) so treated were hydrolysed by NcoI and PstI and subjected to 2% agarose gel electrophoresis. The 383 bp DNA fragments were isolated, purified with the aid of the <<QIAquick Gel Extraction>> kit, recovered in 50 μl of H2O and ligated to the NcoI and PstI sites of the pMRT1119 plasmid. To do this, the pMRT1119 plasmid DNA was digested by NcoI and PstI, purified on 0.8% agarose gel. The fragment corresponding to the plasmid was isolated, purified with the aid of the <<QIAquick Gel Extraction>> kit, then dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, and, finally, recovered in 50 μl of H₂O.

[0166] The ligation by PCR was carried out with 50 ng of digested dephosphorylated pMRT1119 plasmid and all the DNA fragments digested and treated in a reaction medium of 10 μl in the presence of 1 μl of T4 DNA ligase×10 buffer (New England Biolabs) and 400 units of T4 DNA ligase enzyme (New England Biolabs). It is made up of 180 cycles consisting of 2 stages, one of 10° C. for 30 sec. and the other of 30° C. for 30 sec., in the <<GeneAmp PCR System 9700>> thermocycler.

[0167] The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed (Hanahan, 1983). The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method (Birnboim and Doly, 1979) and screened by digestion by BglII. The plasmid DNA of the clone selected was verified by enzymatic digestions and by sequencing. The resultant plasmid selected was called pMRT1122 (6016 bp). It is represented in FIG. 6 and its complete sequence SEQ.ID06 is given in the sequence listing.

[0168] 7. Synthesis of pMRT1155

[0169] The plasmid pMRT1155 (6017 bp) differs from pMRT1122 by the presence of the BspEI site.

[0170] To do this, the 315 bp insert fragment containing the BspEI site was obtained by digestion of pMRT1121 by Bsu36I and PstI, 1.2% agarose gel electrophoresis in TEB buffer, purification with the aid of the “QIAquick Gel Extraction” kit and recovery in 50 μl of H₂O.

[0171] The pMRT1122 vector fragment was obtained by digestion of pMRT1122 by Bsu36I and PstI, 1.2% agarose gel electrophoresis in TEB buffer, purification with the aid of the “QIAquick Gel Extraction” kit and recovery in 50 μl of H₂O. After that, digested pMRT1122 was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, and purified with the aid of the “QIAquick PCR Purification” kit.

[0172] The ligation by PCR reaction was carried out with 100 ng of dephosphorylated digested pMRT1122 plasmid and 50 ng of digested DNA fragments (315 bp) in a reaction medium of 10 μl in the presence of 1 μl of T4 DNA ligase×10 buffer (New England Biolabs) and 400 units of T4 DNA ligase enzyme (New England Biolabs). It is made up of 180 cycles consisting of 2 stages, one of 10° C. for 30 sec. and the other of 30° C. for 30 sec. in a “GeneAmp PCR System 9700” thermocycler. The bacteria, Escherichia coli DH5 or SCS110 (deficient in Dam and Dcm methylases), which had previously been made competent, were transformed (Hanahan, 1983). The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1155 (FIG. 7). Its complete sequence SEQ.ID07 is given in the sequence listing.

[0173] 8. Obtaining Basic Binary Plasmids Comprising the Sequence “eP35S-T35S”

[0174] 8.1. Obtaining pMRT1205

[0175] The plasmid pMRT1205 (7503 bp) includes the expression cassette of the mutant nptII gene and a “double 35S promoter-35S terminator” sequence (eP35S-T35S) for the cloning of genes of interest. It results from the cloning of the eP35S promoter of the cauliflower mosaic virus (CaMV) into pMRT1175. The CaMV eP35S promoter corresponds to a duplication of the transcription-activating sequences situated upstream of the TATA element of the 35S promoter (Kay et al., 1987). As for the plasmid pMRT1175 (6767 bp), this results from the cloning of T35S of the cauliflower mosaic virus into pMRT1121. The transcription-terminating sequence, CaMV T35S, corresponds to the non-coding region in 3′ of the circular double-stranded DNA sequence of the cauliflower mosaic virus producing the 35S transcript (Franck et al., 1980).

[0176] 8.1.1. Obtaining pMRT1175

[0177] The plasmid pMRT1175 results from the cloning of the EcoRI-XhoI insert DNA fragments corresponding to the T35S into the EcoRI and XhoI sites of the vector pMRT1121 produced from Escherichia coli strain SCS110.

[0178] The pMRT1121 vector fragment was obtained by digestion of 7 μg of pMRT1121 by EcoRI and XhoI, purification with the aid of the “QIAquick PCR Purification” kit and recovery in 50 μl of H2O. After that, digested pMRT1121 was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, and purified with the aid of the “QIAquick PCR Purification” kit and recovered in 50 μl of H2O.

[0179] The EcoRI-XhoI insert DNA fragments (757 bp) corresponding to the T35S (750 bp) were obtained by digestion by EcoRI and XhoI of the plasmid pJIT163, which derives from the plasmid pJIT60 (Guerineau and Mullineaux, 1993). They were then subjected to 1% agarose gel electrophoresis in TEB buffer, purified with the aid of the <<QIAquick Gel Extraction)>> kit and recovered in 30 μl of H2O.

[0180] The ligation by PCR reaction was carried out as described earlier in 7, with 80 ng of dephosphorylated digested pMRT1121 plasmid and 80 ng of digested insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1175 (6767 bp). It is represented in FIG. 8 and its complete sequence SEQ.ID08 is given in the sequence listing.

[0181] 8.1.2. Obtaining pMRT1205

[0182] The plasmid pMRT1205 results from the cloning of the KpnI-HindIlI insert DNA fragments corresponding to eP35S into the KpnI and HindIII sites of the vector pMRT1175.

[0183] The pMRT1175 vector fragment was obtained by digestion of 4.1 μg of pMRT1175 by KpnI and HindIII, purification with the aid of the <<Concert Rapid PCR Purification System>> kit and recovery in 100 μl of H₂O. After that, digested pMRT1175 was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, purified with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovered in 50 μl of H₂O.

[0184] The KpnI-HindIII insert DNA fragments (743 bp) corresponding to eP35S (735 bp) were obtained by digestion by KpnI and HindIII of the plasmid pJIT163, which derives from the plasmid pJIT60 (Guerineau and Mullineaux, 1993). They were then subjected to 1% agarose gel electrophoresis in TEB buffer, purified with the aid of the “QIAquick Gel Extraction” kit and recovered in 30 μl of H₂O.

[0185] The ligation by PCR reaction was carried out as described earlier in 7, with 48 ng of dephosphorylated digested pMRT1175 plasmid and 30 ng of digested insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1205 (7503 bp). It is represented in FIG. 19 and its complete sequence SEQ.ID19 is given in the sequence listing.

[0186] 8.2. Obtaining pMRT1203

[0187] The plasmid pMRT1203 (7503 bp) includes the expression cassette of the wild-type nptII gene and a “double 35S promoter-35S terminator” sequence (eP35S-T35S) for the cloning of genes of interest. It results from the cloning of the eP35S promoter of the cauliflower mosaic virus into pMRT1176. As for the plasmid pMRT1176 (6767 bp), this results from the cloning of T35S of the cauliflower mosaic virus into pMRT1155. The eP35S promoter and the T35S terminator are described in 8.1.

[0188] 8.2.1. Obtaining pMRT1176

[0189] The plasmid pMRT1176 results from the cloning of the EcoRI-XhoI insert DNA fragments (757 bp) corresponding to the T35S (750 bp) into the EcoRI and XhoI sites of the vector pMRT1155 produced from Escherichia coli strain SCS110.

[0190] The plasmid pMRT1176 was obtained in accordance with the methodologies described in 8.1.1., except that 6.3 μg of the vector pMRT1155, which constitutes the cloning vector, were digested and treated. The plasmid pMRT1176 (6767 bp) is represented in FIG. 9. Its complete sequence SEQ.ID09 is given in the sequence listing.

[0191] 8.2.2. Obtaining pMRT1203

[0192] The plasmid pMRT1203 results from the cloning of the KpnI-HindIII insert DNA fragments (743 bp) corresponding to eP35S (735 bp) into the KpnI and HindIII sites of the vector pMRT1176.

[0193] The plasmid pMRT1203 was obtained in accordance with the methodologies described in 8.1.2., except that 3.9 μg of the vector pMRT1176, which constitutes the cloning vector, were digested and treated. The plasmid pMRT1203 (7503 bp) is represented in FIG. 17. Its complete sequence SEQ.ID17 is given in the sequence listing.

[0194] 9. Obtaining Binary Plasmids Comprising the Sequence “eP35S-uidA-T35S”

[0195] These vectors were employed in transformation of tobacco in order to evaluate them and determine the incidence of the mutation of the nptII gene.

[0196] 9.1. Obtaining pMRT1206

[0197] The plasmid pMRT1206 (9390 bp) includes the expression cassette of the mutant nptII gene and the expression cassette of the uidA gene (gus). It results from the cloning of the eP35S promoter of the cauliflower mosaic virus into pMRT1196. As for the plasmid pMRT1196 (8654 bp), this results from the cloning of the uidA gene (Jefferson R A et al., 1986) into pMRT1175.

[0198] 9.1.1. Obtaining pMRT1196

[0199] The plasmid pMRT1196 results from the cloning of the insert DNA fragments (SmaI-“SacI+T4 DNA polymerase”), corresponding to the uidA gene, into the “XbaI+Klenow” site of the vector pMRT1175.

[0200] The pMRT1175 vector fragment was obtained by digestion of 10 μg of pMRT1175 by XbaI, purified with the aid of the “QIAquick PCR Purification” kit, recovered in 50 μl of H2O and subjected to the action of 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl pH 7.5, 500 mM MgCl₂, 6 μl of 1M dithiothreitol, 6 μl of each of the 10 mM dNTPs in a reaction volume of 120 μl at 37° C. for 30 min. It was then purified with the aid of the “QIAquick PCR Purification” kit and recovered in 50 μl of H₂O. The plasmid pMRT1175 so digested and treated was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, and purified with the aid of the “QIAquick PCR Purification” kit and recovered in 50 μl of H₂O.

[0201] The insert DNA fragments (2 μg) corresponding to the uidA gene (1.8 kbp) were obtained by digestion of pBI221 (marketed by Clontech) by SacI, purification with the aid of the “QIAquick PCR Purification” kit and recovery in 50 μl of H2O. After that, digested pBI221 was subjected to the action of 6 units of T4 DNA polymerase (New England Biolabs) in a reaction medium of 120 μl in the presence of 12 μl of T4 DNA polymerase×10 buffer, 4 μl of 10 mM dNTPs and 6 μl of BSA 1 mg/ml. The reaction was carried out at 37° C. for 30 min. The plasmid pBI221 so treated was purified with the aid of the “QIAquick PCR Purification” kit and recovered in 50 μl of H2O. Finally, pBI221 so treated was digested by SmaI. The <<[SacI+T4 DNA polymerase]−SmaI>> fragment (1882 bp) was isolated by 0.8% agarose gel electrophoresis, purified with the aid of the “QIAquick Gel Extraction” kit and recovered in 50 μl of H₂O.

[0202] The ligation by PCR reaction was carried out in accordance with the methodologies described in 7, with 15 ng of dephosphorylated digested pMRT1175 plasmid and 100 ng of digested insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1196 (8654 bp). It is represented in FIG. 14 and its complete sequence SEQ.ID14 is given in the sequence listing.

[0203] 9.1.2. Obtaining pMRT1206

[0204] The plasmid pMRT1206 (9390 bp) results from the cloning of the KpnI-HindIlI insert DNA fragments (743 bp), corresponding to eP35S (735 bp), into the KpnI and HindIII sites of the vector pMRT1196.

[0205] The plasmid pMRT1206 was obtained in accordance with the methodologies described in 8.1.2., except that 2 μg of the vector pMRT1196, which constitutes the cloning vector, were digested and treated. It is represented in FIG. 24 and its complete sequence SEQ.ID24 is given in the sequence listing.

[0206] The plasmid pMRT1206 was introduced into Agrobacterium tumefaciens strain LBA4404 by direct transformation in accordance with the procedure of Holsters et al. (1978).

[0207] 9.2. Obtaining pMRT1204

[0208] The plasmid pMRT1204 (9390 bp) includes the expression cassette of the wild-type nptII gene and the expression cassette of the uidA gene. It results from the cloning of the eP35S promoter of the cauliflower mosaic virus into pMRT1192. As for the plasmid pMRT1192 (8654 bp), this results from the cloning of the uidA gene into pMRT1176.

[0209] 9.2.1. Obtaining pMRT1192

[0210] The plasmid pMRT1192 results from the cloning of the insert DNA fragments (SmaI-“SacI+T4 DNA polymerase”), corresponding to the uidA gene, into the “XbaI+Klenow” site of the vector pMRT1176.

[0211] The plasmid pMRT1192 (8654 bp) was obtained in accordance with the methodologies described in 9.1.2., except that the cloning vector is pMRT1176. It is represented in FIG. 11 and its sequence SEQ.ID11 is given in the sequence listing.

[0212] 9.2.2. Obtaining pMRT1204

[0213] The plasmid pMRT1204 (9390 bp) results from the cloning of the KpnI-HindIII insert DNA fragments (743 bp), corresponding to eP35S (735 bp), into the KpnI and HindIII sites of the vector pMRT1192.

[0214] The plasmid pMRT1204 was obtained in accordance with the methodologies described in 8.1.2., except that 2 μg of the vector pMRT1192, which constitutes the cloning vector, were digested and treated. It is represented in FIG. 18 and its complete sequence SEQ.ID18 is given in the sequence listing.

[0215] The plasmid pMRT1204 was introduced into Agrobacterium tumefaciens strain LBA4404 by direct transformation in accordance with the procedure of Holsters et al. (1978).

[0216] 10. Obtaining Binary Plasmids Containing the Bar Gene

[0217] The final plasmids were employed in transformation of maize and/or tobacco in order to evaluate them.

[0218] 10.1. Creation of pMRT1210

[0219] The plasmid pMRT1210 (10003 bp) includes the expression cassette of the bar gene and the expression cassette of the uidA gene. It results from the cloning of the expression cassette of the uidA gene into pMRT1195. As for the plasmid pMRT1195 (6865 bp), this results from the cloning of the sequence “promoter followed by intron 1 of the rice actin gene” (McElroy D et al., 1991) into pMRT1191. The plasmid pMRT1191 (4805 bp) derives from pMRT1119.

[0220] 10.1.1. Obtaining pMRT1191

[0221] The plasmid pMRT1191 (4805 bp) differs from pMRT1119 by the deletion of the nos promoter and mutant nptII gene sequences.

[0222] It was obtained by digestion by Bsp120I of 10 μg of pMRT1119, followed by purification with the aid of the “QIAquick PCR Purification” kit and recovery in 50 μl of H2O. After that, digested pMRT1119 and [sic] was hydrolysed by KpnI, purified with the aid of the “QIAquick PCR Purification” kit, recovered in 50 μl of H2O, subjected to the action of 6 units of T4 DNA polymerase (New England Biolabs) in a reaction medium of 120 μl in the presence of 12 μl of T4 DNA polymerase×10 buffer, 4 μl of 10 mM dNTPs and 6 μl of BSA at 1 mg/ml. The reaction was carried out at 37° C. for 30 min. The vector fragment was then isolated by 0.8% agarose gel electrophoresis, purified with the aid of the “QIAquick Gel Extraction” kit and recovered in 50 μl of H₂O.

[0223] Thirty nanograms of the plasmid so treated were religated by ligation by PCR reaction (procedure described in 7).

[0224] The resultant plasmid was called pMRT1191. It is represented in FIG. 10 and its complete sequence SEQ.ID10 is given in the sequence listing.

[0225] 10.1.2. Obtaining pMRT1201

[0226] The plasmid pMRT1201 (7943 bp) differs from pMRT1191 by the insertion of the expression cassette of the uidA gene isolated from the plasmid pUC19-Phmwg-IA-uidA-Tnos which comprises the uidA expression cassette inserted into the EcoRI and HindIII sites of pUC19 (marketed by New England Biolabs). This plasmid results from successive clonings. The fragment corresponding to the sequence <<uidA gene-nos terminator>> was isolated by successive digestions by <<EcoRI followed by the action of the Klenow fragment>> and SmaI from pBI221 SacI (=pBI221 (Clontech) whose ScaI site was eliminated by SacI digestion followed by the action of T4 DNA polymerase, then ligation). The isolated and purified fragment was inserted into the <<SmaI−[SphI+T4 DNA polymerase]>> sites of pUC19 (Clontech) in order to obtain the resultant plasmid pUC19-uidA-Tnos. After that, the EcoRI site recreated on the 3′ side of Tnos was eliminated by replacement of the BstBI-HindIII fragment of pUC19-uida-Tnos with the BstBI-HindIII fragment obtained by digestion of the fragment amplified by PCR (1054 bp) from the pUC19-uidA-Tnos matrix with the aid of the 2 oligodeoxynucleotides 5′ AGGCATTGGTTTCGAAGCG 3′ (SEQ.ID46) containing the BstBI site and 5′ TACGCCAAGCTTGGCAATTCC 3′(SEQ.ID47). The resultant plasmid was called pUC19-uidA-Tnos EcoRI. Then, in order to introduce a NcoI site at the level of the initiator codon of the uidA gene, a 440 bp fragment was amplified by PCR from the pUC19-uidA-Tnos EcoRI matrix with the aid of the 2 oligodeoxynucleotides 5′ AATACCCGGGACCATGGTCCGTCCTGTAG 3′ (SEQ.ID48) containing the NcoI and SmaI sites and 5′ ATAGTCTGCCAGTTCAGTTCGTTG 3′ (SEQ.ID49) situated downstream of SnaBI. The PCR fragment digested by SmaI and SnaBI was then inserted into pUC19-uidA-Tnos

[0227] EcoRI in order to replace the existing SmaI-SnaBI fragment. The resultant plasmid was called pUC19-NcoI-uidA-Tnos. After that, the Phmwg promoter [High Molecular Weight Glutenin, Anderson et al. (1989)], carried by the EcoRI-SmaI fragment, was introduced into the EcoRI and SmaI sites of pUC19-NcoI-uidA-Tnos in order to produce the plasmid pUC19-Phmwg-uidA-Tnos. Finally, the intron 1 of the rice actin gene (IA, EcoRV-SmaI fragment) comes from the plasmid pAct1-F6 (McElroy D et al., 1991) which is itself modified by the addition of restriction sites notably on both sides of the EcoRV-SmaI fragment containing IA. The SmaI-NcoI fragment carrying IA was isolated from pACt1-F6 modified and inserted into the SmaI and NcoI sites of pUC19-Phmwg-uidA-Tnos in order to produce the plasmid pUC19-Phmwg-IA-uidA-Tnos. The techniques used are the ones already described in this patent.

[0228] The pMRT1191 vector fragment was obtained by digestion of 2 μg of pMRT1191 by EcoRI, purification with the aid of the <<Concert Rapid PCR Purification System>> kit, followed by the action of 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl pH 7.5, 500 mM MgCl₂, 6 μl of 1M dithiothreitol, 6 μl of each of the dNTPs at 10 mM in a reaction volume of 120 μl at 37° C. for 30 min., purification with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovery in 50 μl of H2O. After that, digested and treated pMRT1191 was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, purified with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovered in 50 μl of H₂O.

[0229] The insert DNA fragments (2 μg) corresponding to the expression cassette of the uidA gene (3 kbp), viz. the uidA gene placed under the control of the wheat “high molecular weight glutenin” promoter followed by the intron 1 of the rice actin gene and the nopaline synthase terminator of Agrobacterium tumefaciens, were obtained by digestion of pUC19-Phmwg-IA-uidA-Tnos by ScaI (site present in pUC19), purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H₂O, digestion by HindIII, purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H₂O, treatment by 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl, pH 7.5, 500 mM MgCl₂, 6 μl of 1M dithiothreitol, 6 μl of each of the 10 mM dNTPs in a reaction volume of 120 μl at 37° C. for 30 min., purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H₂O and digestion by EcoRI. After that, the insert DNA fragments were isolated by 0.8% agarose gel electrophoresis, purified with the aid of the “QIAquick Gel Extraction” kit, subjected to the action of the Klenow fragment as described above, and recovered in 50 μl of H₂O.

[0230] The ligation by PCR reaction was carried out as described earlier in 7, with 10 ng of dephosphorylated digested pMRT1191 plasmid and 100 ng of digested and treated insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1201 (7943 bp). It is represented in FIG. 15 and its complete sequence SEQ.ID15 is given in the sequence listing.

[0231] 10.1.3. Obtaining pMRT1210

[0232] The plasmid pMRT1210 (10003 bp) differs from pMRT1201 by the insertion of the sequence “promoter followed by the intron 1 of the rice actin gene—bar gene” (Pact-IA-bar) isolated from pSB12-Pact-IA-bar-Tnos which derives from pSB12 described by Komari et al. (1996). The plasmid pSB12-Pact-IA-bar-Tnos results from the cloning of the expression cassette <<Pact-IA-bar-Tnos>> (BspDI−<<XhoI+Klenow>> fragment), isolated from pDM302, into the SmaI and BspDI sites of pSB12, whose XhoI site on the LB side was deleted. The plasmid pDM302, constructed in the laboratory of Wu R., comprises the expression cassette <<Pact-IA-bar-Tnos>> in the plasmid pSP72 marketed by Promega.

[0233] The pMRT1201 vector fragment was obtained by digestion of 2 μg of pMRT1201 by HpaI, purification with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovery in 98 μl of H2O. After that, digested pMRT1201 was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, purified with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovered in 50 μl of H2O.

[0234] The insert DNA fragments (2 μg) corresponding to “Pact-IA-bar” (2.1 kbp) were obtained by XbaI digestion of pBIOS273, purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H₂O, treatment with 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl, pH 7.5-500 mM MgCl₂, 6 μl of 1M dithiothreitol and 6 μl of each of the 10 mM dNTPs in a reaction volume of 120 μl at 37° C. for 30 min. The insert DNA fragments so treated were then isolated by 0.8% agarose gel electrophoresis, purified with the aid of the “QIAquick PCR Purification” kit and recovered in 50 μl of H₂O.

[0235] The ligation by PCR reaction was carried out as described earlier in 7, with 60 ng of dephosphorylated digested pMRT1201 plasmid and 100 ng of digested and treated insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1210. It is represented in FIG. 21 and its complete sequence SEQ.ID21 is given in the sequence listing.

[0236] This plasmid pMRT1210 was then introduced into Agrobacterium tumefaciens strain LBA4404 (pSB1) [Komari T et al., 1996] and strain LBA4404 by direct transformation in accordance with the procedure of Holsters et al. (1978).

[0237] 10.1.4. Obtaining pMRT1193

[0238] The binary plasmid pMRT1193 was obtained by cloning, into the EcoRI and [XhoI+Klenow fragment action] sites of pMRT1119, of the <<EcoRI−[HindIII+Klenow fragment action]>> fragment carrying the sequence <<Phmwg-IA-uidA-Tnos>> isolated from pUC19-Phmwg-IA-uidA-Tnos, described in 10.1.2.

[0239] To do this, the pMRT1119 vector fragment was obtained by digestion of 10 μg of pMRT1119 by XhoI, purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H2O, treatment with 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl, pH 7.5-500 mM MgCl₂, 6 μl of 1M dithiothreitol and 6 μl of each of the 10 mM dNTPs in a reaction volume of 120 μl at 37° C. for 30 min. Then purification with the aid of the “QIAquick PCR Purification” kit and digestion by EcoRI. The treated vector fragment was isolated by 0.8% agarose gel electrophoresis, purified with the aid of the “QIAquick PCR Purification” kit and recovered in 50 μl of H₂O. After that, digested pMRT1119 was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, purified with the aid of the “QIAquick PCR Purification” kit and recovered in 50 μl of H₂O.

[0240] The insert DNA fragments (2 μg) corresponding to the expression cassette of the uidA gene (3 kbp), viz. the uidA gene placed under the control of the wheat “high molecular weight glutenin” promoter followed by the intron 1 of the rice actin gene and the nopaline synthase terminator of Agrobacterium tumefaciens, were obtained by digestion of pUC19-Phmwg-IA-uidA-Tnos by ScaI (site present in pUC19), purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H₂O, digestion by HindIII, purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H₂O, treatment with 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl, pH 7.5, 500 mM MgCl₂, 6 μl of 1M dithiothreitol and 6 μl of each of the 10 mM dNTPs in a reaction volume of 120 μl at 37° C. for 30 min., purification with the aid of the “QIAquick PCR Purification” kit, recovery in 50 μl of H₂O, and digestion by EcoRI. The insert DNA fragments were then isolated by 0.8% agarose gel electrophoresis, purified with the aid of the “QIAquick Gel Extraction” kit and recovered in 50 μl of H₂O.

[0241] The ligation by PCR reaction was carried out as described earlier in 7, with 20 ng of dephosphorylated digested pMRT1119 plasmid and 100 ng of digested and treated insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1193 (9143 bp). It is represented in FIG. 12 and its complete sequence SEQ.ID12 is given in the sequence listing.

[0242] 10.2. Obtaining pMRT1195

[0243] The plasmid pMRT1195 (6857 bp) differs from pMRT1191 by the insertion of the sequence “promoter followed by the intron 1 of the rice actin gene—bar gene” (Pact-IA-bar). The vector pMRT1191 was digested by Bsp120I and KpnI followed by the action of the enzyme T4 DNA polymerase and dephosphorylated but not religated was obtained as described in 10.1.1.

[0244] The insert DNA fragments corresponding to “Pact-IA-bar” (2.1 kbp) were obtained as described in 10.1.3.

[0245] The ligation by PCR reaction was carried out as described earlier in 7, with 20 ng of dephosphorylated digested pMRT1191 plasmid and 100 ng of digested and treated insert DNA fragments. The bacteria, Escherichia coli DH5a, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1195. It is represented in FIG. 13 and its complete sequence SEQ.ID13 is given in the sequence listing.

[0246] 10.3. Obtaining pMRT1202

[0247] The plasmid pMRT1202 (5614 bp) differs from pMRT1195 by the replacement of the sequence “Pact-IA” by the nopaline synthase (Pnos) promoter of Agrobacterium tumefaciens isolated from pMRT1121 produced in Escherichia coli strain SCS110.

[0248] The pMRT1195 vector fragment (2 μg) was digested by PstI, purified with the aid of the <<Concert Rapid PCR Purification System>> kit, recovered in 98 μl of H₂O, treated by the action of 6 units of T4 DNA polymerase (New England Biolabs) in a reaction medium of 120 μl in the presence of 12 μl of T4 DNA polymerase×10 buffer, 4 μl of 10 mM dNTPs and 6 μl of BSA at 1 mg/ml. The reaction was carried out at 37° C. for 30 min. The vector fragment was then purified with the aid of the <<Concert Rapid PCR Purification System>> kit, recovered in 50 μl of H₂O, digested by HindIII, isolated by 0.8% agarose gel electrophoresis, purified with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovered in 98 μl of H₂O. After that, digested and treated pMRT1195 was dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, purified with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovered in 50 μl of H₂O.

[0249] The insert DNA fragments corresponding to “Pnos” were obtained by BspEI digestion of pMRT1121, purification with the aid of the <<Concert Rapid PCR Purification System>> kit, recovery in 98 μl of H₂O, treatment with 20 units of the Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM Tris-HCl, pH 7.5-500 mM MgCl2, 6 μl of 1M dithiothreitol and 6 μl of each of the 10 mM dNTPs in a reaction volume of 120 μl at 37° C. for 30 min., purification with the aid of the <<Concert Rapid PCR Purification System>> kit, recovery in 50 μl of H₂O, and digestion by HindIII. The insert DNA fragments (219 bp) carrying Pnos (209 bp) were then isolated by 2% agarose gel electrophoresis, purified with the aid of the <<Concert Rapid PCR Purification System>> kit, and recovered in 50 μl of H₂O.

[0250] The ligation by PCR reaction was carried out as described earlier in 7, with 48 ng of dephosphorylated digested pMRT1195 plasmid and 56 ng of digested and treated insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1202. It is represented in FIG. 16 and its complete sequence SEQ.ID16 is given in the sequence listing.

[0251] 10.4. Obtaining pMRT1212

[0252] The plasmid pMRT1212 (8987 bp) differs from pMRT1206 by the replacement of the nptII gene by the bar gene.

[0253] To do this, the pMRT1206 vector fragment was obtained by digestion by Bsu36I of 2 μg of pMRT1206, purification with the aid of the <<Concert Rapid PCR Purification System>> kit, recovery in 50 μl of H₂O and digestion by AatII. The digestion by Bsu36I and AatII allowed deletion of the vector of the fragment corresponding to <<part Pnos nptII Tnos LB>>. The digested vector fragment was then subjected to 1% agarose gel electrophoresis, purified with the aid of the <<Concert Rapid PCR Purification System>> kit and recovered in 98 μl of H₂O. This digested and treated vector fragment was then dephosphorylated with 50 units of calf intestinal alkaline phosphatase (New England Biolabs) in a final reaction medium of 120 μl in the presence of 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, purified with the aid of the <<Concert Rapid PCR Purification System>> kit and recovered in 50 μl of H₂O.

[0254] The insert DNA fragments corresponding to <<part Pnos bar Tnos LB>> (1.2 kbp) were obtained by digestion by Bsu36I of 2 μg of pMRT1202, purification with the aid of the Concert Rapid PCR Purification System kit, recovery in 40 μl of H₂O, digestion by AatII, isolation by 1% agarose gel electrophoresis, purification with the aid of the Concert Rapid PCR Purification System kit and recovery in 50 μl of H₂O.

[0255] The ligation by PCR reaction was carried out as described earlier in 7, with 100 ng of dephosphorylated digested pMRT1206 plasmid and 50 ng of digested insert DNA fragments. The bacteria, Escherichia coli DH5, which had previously been made competent, were transformed. The plasmid DNA of the clones obtained, selected on LB medium supplemented with kanamycin (50 mg/l), was extracted by the alkaline lysis method and verified by enzymatic digestions and sequencing. The resultant plasmid was called pMRT1212. It is represented in FIG. 22 and its complete sequence SEQ.ID22 is given in the sequence listing.

[0256] 11. Evaluation of the Synthetic Vectors Produced in the Bacteria

[0257] The yield of plasmids obtained from the bacteria Escherichia coli strain DH5 was determined.

[0258] I Non-Binary Synthetic Plasmids

[0259] Primary cultures of the recombinant bacteria possessing the plasmids pMRT1105, pMRT1106 or pMRT1105-ori ColE1 were prepared from 500 ml of each of the respective “glycerol-stocks” in 10 ml of LB medium supplemented with kanamycin at 50 mg/l, at 37° C. for 16 hours. After that, 500 ml of each of the primary cultures was cultured in 100 ml of LB supplemented with kanamycin at 50 mg/l at 37° C. for 23 hours. For pMRT1106, two cultures were prepared, one without addition of chloramphenicol and the other with addition of chloramphenicol at 40 mg/l after 7 hours of culture. The cultures were then centrifuged at 5000 g for 10 min. The plasmid DNAs were extracted with the aid of the “QIAFilter Plasmid Midi kit” (QIAGEN), in accordance with the manufacturer's recommendations, and quantitatively determined with the spectrophotometer. The quantities of plasmids obtained were determined as 10 mg, 50.6 mg, 86.2 mg and 9.8 mg respectively for pMRT1105, pMRT1106, pMRT1106 treated with chloramphenicol, and pMRT1105 ori ColE1 (plasmid pMRT1105 in which ori ColE1 was inserted in the reverse orientation to that of pMRT1106). These results show that the synthetic plasmids are replicated in Escherichia coli, the presence of the origin of replication “ori ColE1” in the right orientation (NdeI site of “ori ColE1” near “ori RK2”) allows the yield to be increased by a factor of 5, whereas no effect is shown for the reverse orientation of “ori ColE1”, treatment with chloramphenicol contributes an additional factor of 1.6.

[0260] 11.2. Synthetic Binary Plasmids.

[0261] The synthetic binary plasmids pMRT1118 and pMRT1119 are evaluated relative to the controls pBin19 and pBIOC4. The plasmid pBIOC4 differs from pGA492 (An,1986) by the deletion of virtually all the coding sequence of the pGA492 cat gene and by the conversion of the HindIII site into an EcoRI site. It was obtained by double digestion by SacI and ScaI followed by the action of the enzyme T4 DNA polymerase (New England Biolabs) and ligation of the modified plasmid (20 ng) in a reaction medium of 10 μl in the presence of 1 μl of T4 DNA ligase×10 buffer (Amersham) and 2.5 units of T4 DNA ligase (Amersham) at 14° C. for 16 hours. The bacteria, Escherichia coli strain DH5, which had previously been made competent, were transformed (Hanahan, 1983). The plasmid DNA of the clones obtained, selected on tetracycline at 12 mg/l, was extracted by the alkaline lysis method (Birnboim and Doly, 1979) and analysed by enzymatic digestions. The HindIII site of the plasmid DNA of the clone selected were then modified into an EcoRI site with the aid of a phosphorylated HindIII-EcoRI adaptor (Stratagene). To do this, 500 ng of plasmid DNA of the clone selected were digested by HindIII, dephosphorylated by the enzyme calf intestinal alkaline phosphatase (Boehringer Mannheim) in accordance with the manufacturer's recommendations and coprecipitated in the presence of 1500 ng of HindIII-EcoRI adaptor DNA, 0.1 volume of 3M sodium acetate, pH 4.8, and 2.5 volumes of absolute ethanol at −80° C. for 30 min. After centrifugation at 12000 g for 30 min., the precipitated DNA was washed with 70% ethanol, dried, recovered in 8 μl of H₂O, held at 65° C. for 10 min., then ligated as described earlier. After inactivation of the T4 DNA ligase at 65° C. for 10 min., the ligation reaction mixture was digested by EcoRI, purified by 0.8% agarose gel electrophoresis, electroeluted, precipitated with absolute ethanol, centrifuged at 12000 g for 30 min., washed with 70% ethanol, dried, then ligated and introduced into Escherichia coli strain DH5, and treated as described earlier.

[0262] Primary cultures of the recombinant bacteria possessing the plasmids mentioned above were prepared from 500 ml of each of the respective “glycerol-stocks” in 10 ml of LB medium supplemented with kanamycin at 50 mg/l, except for pBIOC4, which was selected on tetracycline at 12 mg/l, at 37° C. for 16 hours. After that, 250 ml of each of the primary cultures were cultured in 100 ml of LB supplemented with the appropriate antibiotic at 37° C. for 23 hours. The cultures were then centrifuged at 5000 g for 10 min. The plasmid DNAs were extracted with the aid of the “QIAFilter Plasmid Midi kit” (QIAGEN) in accordance with the manufacturer's recommendations and quantitatively determined with the spectrophotometer. The quantities of plasmids obtained were determined as 94.2 mg, 113 mg, 37.2 mg and 45.6 mg respectively for pMRT1118, pMRT1119, pBin19 and pBIOC4.

[0263] These results show that the synthetic binary plasmids are replicated in Escherichia coli, and that the yield of pMRT1119 is increased by the factors 3 and 2.5 respectively, relative to the pBin19 and pBIOC4 controls.

[0264] Furthermore, these synthetic plasmids are replicated in Agrobacterium tumefaciens strain LBA4404.

[0265] 12. Evaluation of the Synthetic Plasmids by Transgenesis

[0266] 12.1. Transformation of Tobacco

[0267] 12.1.1. Stable Transformation of Tobacco

[0268] The transformation of tobacco (Nicotiana tabacum L. var. PBD6) was carried out by infecting foliar discs isolated from 6-week-old tobacco seedlings in vitro with recombinant agrobacteria in accordance with the method described by Horsch et al. (1985).

[0269] All the in vitro cultures are prepared in a controlled environment chamber in which the light intensity is 200 μE.m-2.s-1, the photoperiod 16 hours light/8 hours darkness, and the temperature 25° C.

[0270] Except for the initial coculture stage, the regeneration, development and rooting stages were performed on different selective media supplemented with a bacteriostat, namely augmentin at 400 mg/l, and a selective agent, namely kanamycin at 200 or 100 mg/l.

[0271] The different stages and the media used are as follows:

[0272] After primary culture of the agrobacteria in 5 ml of 2YT medium (bacto-tryptone 10 g/l, yeast extract 5 g/l, NaCl 5 g/l, pH 7.2) supplemented with CaCl₂, with a final concentration of 6 mM, and with appropriate antibiotics, at 28° C. for 48 hours, a culture is performed in 10 ml of 2YT medium, supplemented with CaCl₂ and antibiotics, at 28° C. for a period of one night. The culture is then centrifuged at 3000 g for 10 min. and the bacteria are resuspended in 10 ml of liquid MS30 (M0404 at 4.4 g/l, marketed by SIGMA, supplemented with sucrose, 30 g/l, pH 5.7).

[0273] The coculture is performed by placing the foliar explants cut from the leaves of the seedlings in vitro, about 1 cm², in contact with the suspension of agrobacteria, diluted 1/10, in liquid MS30 for 20 min. The explants so treated are then rapidly dried on filter paper and placed on a solid coculture medium (CM) (MS30, Benzyl Amino Purine (BAP) 1 mg/l, Indole-3 Acetic Acid (ANA) at 0.1 mg/l, agar at 8 g/l) for 48 hours in the controlled environment chamber.

[0274] The treated explants are then placed on a solid regeneration medium (solid CM, augmentin 400 at mg/l, kanamycin at 200 mg/l). The explants are pricked out on the same medium after 2 weeks.

[0275] After 2 weeks the shoots are pricked out on a solid development medium (M0404 at 4.4 g/l, marketed by SIGMA, supplemented with sucrose 20 g/l, pH 5.7 (liquid MS20), augmentin at 400 mg/l, kanamycin at 100 mg/l, agar at 8 g/l).

[0276] After 2 weeks, the transformed seedlings are pricked out on a solid rooting medium identical to the development medium. Rooting takes 2 to 3 weeks, after which the seedlings are removed to the growth chamber in Giffy pots for 10 days (photoperiod 16 hours light/8 hours darkness, 23° C., 70% relative humidity), then placed in the greenhouse.

[0277] 12.1.2. Evaluation of the Synthetic Plasmids Used in Transformation of Tobacco

[0278] The recombinant agrobacteria (Agrobacterium tumefaciens strain LBA4404) containing the synthetic binary plasmid pMRT1118 or the control binary plasmid pBin19 were used to transform the tobacco Nicotiana tabacum L. var. PBD6.

[0279] The results showed that the number and growth of the seedlings which develop in the presence of the selective agent (kanamycin) are similar for the two binary plasmids tested. These observations indicate that the synthetic binary plasmid is perfectly functional in transgenesis of tobacco.

[0280] 12.2. Transformation of Maize

[0281] 12.2.1. Genetic Transformation of Maize Calli

[0282] The genetic transformation of maize, whatever method is employed (electroporation, Agrobacterium, microfibres, particle gun), generally requires the use of cells that are undifferentiated in rapid divisions, having retained the ability to regenerate whole plants. Cells of this type make up the friable embryogenic callus (called Type II) of maize.

[0283] These calli were obtained from immature embryos of genotype HI, II or (A188×B73) in accordance with the method and on the media described by Armstrong (Maize handbook, 1994, Freeling M and Walbot V (eds), pp 665-671). The calli so obtained were multiplied and maintained by successive subcultures every 2 weeks on the starting medium.

[0284] Seedlings were regenerated from these calli by modifying the hormonal and osmotic equilibrium of the cells in accordance with the method described by Vain et al. (1989). These plants were then hardened off in the greenhouse, where they can be crossed or selfed.

[0285] 12.2.2. Genetic Transformation of Maize with the Particle Gun

[0286] The production and regeneration of the cell lines needed for transformation are described in 12.2.1.

[0287] The procedure which uses the particle gun for genetic transformation is described by Finer et al. (1992). The target cells are callus fragments with a surface area of 10 to 20 mm². These fragments were placed on a starting medium supplemented with 0.2 M mannitol and 0.2 M sorbitol for 4 hours before bombardment.

[0288] The tungsten particles (M10) and transformation plasmids were coprecipitated in accordance with the protocol described by Klein (1987). The particles thus coated were projected towards the target cells by means of the particle gun in accordance with the protocol of Finer et al. (1992).

[0289] The bombarded calli were placed in darkness at 27° C. After 24 hours, the first subculturing took place, followed by subculturing every 2 weeks for 3 months on a starting medium to which the appropriate selective agent to select only the transformed calli had been added. These calli were then grown in the presence of the selective agent in order to regenerate transformed seedlings, as described in 12.2.1. The seedlings obtained were hardened off and transferred to the greenhouse, where they can be crossed or selfed.

[0290] 12.2.3. Genetic Transformation of Maize by Agrobacterium tumefaciens

[0291] The technique used is described by Ishida et al. (1996). Immature embryos 1.0 to 1.2 mm in length (9 to 14 days after pollination) were washed in the LS-inf medium, then immersed in the suspension of agrobacteria, prepared as described by Ishida et al. (1996), vortexed for 30 sec., and incubated at ambient temperature for 5 min. The immature embryos so treated were cultured on LS-AS medium in darkness at 25° C. for 3 days, then transferred to LSD 1.5 medium supplemented with phosphinothricin at 5 mg/l and cefotaxime at 250 mg/l, in darkness at 25° C. for 2 weeks, and finally placed on LSD 1.5 medium supplemented with phosphinothricin at 10 mg/l and cefotaxime at 250 mg/l, in darkness at 25° C. for 3 weeks. The Type I calli thus generated were isolated, fragmented and transferred to LSD 1.5 medium supplemented with phosphinothricin at 10 mg/l and cefotaxime at 250 mg/l, in darkness at 25° C. for 3 weeks. The Type I calli which proliferated were then isolated and placed on LSZ medium supplemented with phosphinothricin at 5 mg/l and cefotaxime at 250 mg/l, subjected to a photoperiod of 16 hours light/8 hours darkness at 25° C. for 2 to 3 weeks. The regenerated seedlings were then transferred to ½ LSF medium subjected to a photoperiod of 16 hours light/8 hours darkness at 25° C. for 1 to 2 weeks, and then transferred to the growth chamber and greenhouse.

[0292] 13. Influence of the Vector Backbone on Gene Expression

[0293] Stably transformed tobacco plants were obtained for the synthetic binary plasmids pMRT1204 bearing the wild-type nptII gene (16 plants) and pMRT1206 bearing the mutated nptII gene (12 plants), and also for the control vector pBI121 sold by Clontech which corresponds to plasmid pBIN19 bearing the wild-type nptII gene and containing the expression cassette “P35S-uidA-polyA nos” (11 plants).

[0294] The influence of the synthetic vector backbone and that of the control was evaluated by ELISA analysis of protein extracts using the NPTII ELISA kit sold by 5 Prime→3 Prime. The analysis enabled a quantification of the NPTII protein produced (in micrograms, μg) with respect to the amount of soluble extracted protein(in milligrams, mg).

[0295] The proteins were extracted in “Tris-HCl 25 mM pH7.8; Phenylmethylsulfonylfluoride 1 mM” buffer from tobacco leaves ground in liquid nitrogen. After centrifugation for 10 minutes at 10000 g and 4° C., the extracted soluble proteins contained in the supernatant were measured according to Bradford's method (A rapid and sensitive method for the detection of microgram quantities of proteins utilizing the principle of protein-dye binding. Anal. Biochem. (1976)72, 248-254).

[0296] The antibodies used for ELISA quantification were rabbit polyclonal antibodies specifically recognizing the coating NPTII protein and biotinylated anti-NPTII anitbodies for the detection of the NPTII protein.

[0297] The results of the analysis shown in FIG. 23 indicate that:

[0298] for the wild type nptII gene cassette and different plasmid backbones, the quantities of NPTII obtained with the synthetic binary plasmid pMRT1204 are greater by a factor of 6.7 than those obtained with the original pBIN19 binary plasmid, which demonstrates the efficiency of the synthetic vector.

[0299] for an identical plasmid backbone, i.e. synthetic binary plasmids pMRT1204 and pMRT1206, but with different nptII genes, i.e. Wild type and mutated nptII, the quantities of NPTII obtained in the wild type gene differ from those obtained for the mutated nptII gene by a factor 1.2.

[0300] 14. Synthesis of pMRT1334.

[0301] The plasmid pMRT1334 (9688 bp) was obtained by replacing the nptII expression cassette of pMRT1206 by the nptII expression cassette of pBIN19.

[0302] The vector fragment derived from pMRT1206 was obtained by digestion of 10 μg of pMRT1206 with KpnI, purified using a “Concert Rapid PCR Purification System” kit, and taken up in 50 μl of water. Then the digested pMRT1206 was subjected to the action of 6 units of T4 DNA polymerase (New England Biolabs) in a reaction mixture of 120 μl in the presence of 12 μl of T4 10× DNA polymerase buffer, 4 μl of 10 mM dNTP and 6 μl of 1 mg/ml BSA. The reaction was carried out at 37° C. for 30 minutes. The digested and thus treated pMRT1206 vector was purified with a “Concert Rapid PCR Purification System” kit, taken up in 50 μl of water, then digested with AflII. The vector fragment derived from pMRT1206 was isolated by electrophoresis on a 1% agarose gel, purified with a “Concert Rapid PCR Purification System” and taken up in 50 μl of water.

[0303] The DNA insert fragment DraI-AflII (1.5 kbp), corresponding to the nptII expression cassette was obtained by digestion of 9 μg of pBIN19 plasmid with DraI and AflII. Then, the fragment was subjected to electrophoresis on a 1% agarose gel in TEB buffer, purified using a “Concert Rapid PCR Purification System”, and taken up in 50 μl of water.

[0304] The PCR ligation reaction was carried out using 100 ng of the plamsid fragment derived from pMRT1206 and 100 ng of the DNA insert fragment DraI-AflII in a reaction mixture of 20 μl in the presence of 2 μl of T4 10× DNA ligase buffer (Epicentre Technologies), 2 μl 2.5 mM ATP and 4 units of T4 DNA ligase (Epicentre Technologies). The reaction consists of 180 cycles each including 2 steps, the first at 10° C. for 30 seconds and the second at 30° C. for 30 seconds in a “GeneAmp PCR System 9700” thermocycler.

[0305] Previously prepared competent Escherichia coli DH5 bacteria, were transformed (Hanahan, 1983). The plamsid DNA of the obtained clones, selected on LB media supplemented with kanamycin (50 mg/l), was extracted according to the alakline lysis method and verified by enzymatic digestion and sequencing. The resulting plasmid was designated pMRT1334 (FIG. 24). Its complete sequence is given under SEQ.ID50 in the sequence listing.

[0306] 15. Synthesis of pMRT1335

[0307] The plasmid pMRT1335 (15208 bp) is a control vector and results from the insertion of the expression cassette “ep35S-gus (uidA)-polyA35S” isolated from pMRT1206 into pBIN19.

[0308] 13 μg of pBIN19 plasmid were digested with EcoRI, purified using a “Concert Rapid PCR Purification System”, and taken up in 50 μl water. Then the previously digested pBIN19 was subjected to the action of 20 units of Klenow fragment (New England Biolabs) in the presence of 12 μl 500 mM pH7.5 Tris-HCl 500 mM MgCl2, 6 μl of 1M dithiothreitol, 6 μl each of 10 mM dNTP in a reaction volume of 120 μl at 37° C. for 60 minutes. The digested pBIN19 vector was purified using a “Concert Rapid PCR Purification System”, taken up in 50 μl water, then digested with KpnI. The vector fragment thus produced was isolated by electrophoresis on a 1% agarose gel, and purified using a “Concert Rapid PCR Purification System” and taken up in 50 μl of water.

[0309] The DNA insert fragment corresponding to the “ep35S-gus-polyA35S” (3.5 kbp) expression cassette was obtained by digestion of 10 μg of plasmid pMRT1206 with XhoI, purified using a “Concert Rapid PCR Purification System”, and taken up in 50 μl water, followed by the action of 20 units of Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM pH7.5 Tris-HCl 500 mM MgCl2, 6 μl 1M dithiothreitol, 6 μl each of 10 mM dNTP in a reaction volume of 120 μl at 37° C. for 60 minutes, then purified using a “Concert Rapid PCR Purification System”, taken up in 50 μl water, and finally digested with KpnI. The DNA insert fragment thus produced was isolated by electrophoresis on a 1% agaros gel in TEB buffer, and purified using a “Concert Rapid PCR Purification System”, and taken up in 50 μl water.

[0310] The PCR ligation reaction was carried out with 100 ng of pBIN19 treated and 100 ng of DNA insert fragment as prepared previously in a reaction volume of 20 μl in the presence of 2 μl of T4 10× DNA ligase buffer (Epicentre Technologies), 2 μl 2.5 mM ATP and 4 units T4 DNA ligase (Epicentre Technologies). The reaction consists of 180 cycles each including 2 steps, the first at 10° C. for 30 seconds and the second at 30° C. for 30 seconds in a “GeneAmp PCR System 9700” thermocycler.

[0311] Previously prepared competent Escherichia coli DH5 bacteria, were transformed (Hanahan, 1983). The plamsid DNA of the obtained clones, selected on LB media supplemented with kanamycin (50 mg/l), was extracted according to the alakline lysis method and verified by enzymatic digestion and sequencing. The resulting plasmid was designated pMRT1335 (FIG. 25). Its complete sequence is given under SEQ.ID51 in the sequence listing.

[0312] 16. Synthesis of pMRT1336

[0313] The plamsid pMRT1336 (9285 bp) results from the insertion into pMRT1196 of the promoter MPr1165 (610 bp) isolated from plasmid pMRT1322 as described in PCT patent application PCT/IB00/00370, and incorporated into the present description by reference thereto for that relevant part.

[0314] 10 μg of pMRT1196 plasmid were digested with KpnI, purified using a “Concert Rapid PCR Purification System”, takn up in in 50 μl water, and redigested with HpaI. The thus treated vector fragment was subjected to electrophoresis on a 1% agarose gel, and purified using a “Concert Rapid PCR Purification System” and then taken up in 50 μl water.

[0315] The DNA insert fragment bearing the promoter MPr1165 (0.5 kbp) was obtained from 10 μg of pMRT1322 plasmid digested with KpnI, purified using a “Concert Rapid PCR Purification System” and taken up in 50 μl water, and then redigested with HpaI. The DNA insert fragment thus produced was subjected to gel electrophoresis on a 1% agarose gel in TEB buffer, purified using a “Concert Rapid PCR Purification System”, and taken up in 50 μl water.

[0316] The PCR ligation reaction was carried out using 100 ng of vector fragment and 100 ng DNA insert fragment bearing the promoter MPr1165 as prepared above in a reaction volume of 20 μl in the presence of de 2 μl T4 10× DNA ligase buffer (Epicentre Technologies), 2 μl 2.5 mM ATP and 4 units T4 DNA ligase (Epicentre Technologies). The reaction consists of 180 cycles each including 2 steps, the first at 10° C. for 30 seconds and the second at 30° C. for 30 seconds in a “GeneAmp PCR System 9700” thermocycler.

[0317] Previously prepared competent Escherichia coli DH5 bacteria, were transformed (Hanahan, 1983). The plamsid DNA of the obtained clones, selected on LB media supplemented with kanamycin (50 mg/l), was extracted according to the alakline lysis method and verified by enzymatic digestion and sequencing. The resulting plasmid was designated pMRT1336 (FIG. 26). Its complete sequence is given in the sequence listing under SEQ.ID52.

[0318] Plasmid pMRT1322 was obtained by the insertion of promoter MPr1165 into pMRT1176. 10 μg of pMRT1176 plasmid was digested with XbaI and EcoRI, purified using a “Concert Rapid PCR Purification System” kit, taken up in 50 μl water, dephosphorylated with 50 units of calf intestine alkaline phosphatase (New England Biolabs) in a final reaction volume of 120 μl in the presence 12 μl of 3×10 buffer (New England Biolabs) at 37° C. for 1 hour, and purified using a “Concert Rapid PCR Purification System” kit, and then taken up in 50 μl water. The DNA insert fragment corresponding to promoter MPr1165 was obtained by PCR amplification from 10 ng of pMRT1240 matrix DNA usingn 20 pmoles each of two oligodesoxynucleotides, 5′ AGCTCTAGAGCTGCCTGCAGCACTAGTATCC 3′(SEQ.ID53) bearing the site XbaI and 5′ CGGAATTCGGCCTCTAGGTTGTTGTGTTG 3′(SEQ.ID54) bearing the site EcoRI, using the enzyme Platinum Taq polymerase High Fidelity (GIBCO BRL Life Technologies) and following the suppliers instructions. The PCR amplification reaction was carried out in a “GeneAmp PCR System 9700” thermocycler. After denaturation at 94° C. for 2 minutes, the DNA was subjected to 25 cycles, each including denaturation steps at 94° C. for 45 seconds, hybridisation at 55° C. for 45 seconds and elongation at 68° C. for 45 seconds. On the final cycle the elongation was continued at 68° C. for 3 minutes. The PCR product obtained was isolated by electrophoresis on a 1.5% agarose gel in TBE buffer and purified using a “Concert Rapid PCR Purification System” kit, and then taken up in 50 μl water. The PCR product was then digested with XbaI and EcoRI, purified using a “Concert Rapid PCR Purification System” kit, and taken up in 50 μl water. The PCR ligation reaction was carried out as described previously with 80 ng of pMRT1176 vector fragment and 110 ng of DNA insert fragment bearing the MPr1165 promoter. Previously prepared competent Escherichia coli DH5 bacteria, were transformed (Hanahan, 1983). The plamsid DNA of the obtained clones, selected on LB media supplemented with kanamycin (50 mg/l), was extracted according to the alakline lysis method and verified by enzymatic digestion and sequencing. The resulting plasmid was designated pMRT1322.

[0319] Plasmid pMRT1240 was obtained by insertion of a DNA fragment into plasmid pMRT1234, by treatment with Klenow fragment (New England Biolabs) according to the supplier's instructions of the HindIII sites and BamHI. The DNA insert fragment was the L5 promoter fragment obtained by double PstI digestion, and BamHI digestion, followed by the action of T4 DNA polymerase (New England Biolabs) according to the supplier's instructions, of plasmid pMRT1165, as described in PCT patent application PCT/IB00/00370, and incorporated into the present description by reference thereto for that relevant part.

[0320] Plasmid pMRT1234 was obtained by the insertion at the EcoRI site of pMRT1175 of a DNA insert fragment EcoRI corresponding to the cDNA coding for human lacotferrin isolated from the plamsid pHMWG-IA-PSSp-Lf, as described in previously published patent application WO98/50543.

[0321] 17. Synthesis of pMRT1337

[0322] Plasmid pMRT1337 (8289 bp) was obtained from the insertion, into pMRT1205, of the gfp gene isolated from pBINm-gfp5-ER and described in Haseloff J et Siemering K R. 1998, “The uses of green fluorescent protein in plants”, in Green fluorescent protein: Strategies, applications and protocols (Chalfie M et Kain S, eds, Wiley, pp 191-220).

[0323] 10 μg of plasmid pMRT1205 was digested with EcoRI, purified using a “Concert Rapid PCR Purification System>> kit, taken up in 50 μl water, subjected to the action of 20 units of Klenow fragment (New England Biolabs) in the presence of 12 μl of 500 mM pH7.5 Tris-HCl 500 mM MgCl2, 6 μl 1M dithiothreitol, 6 μl each of 10 mM dNTP in a reaction volume of 120 μl at 37° C. for 60 minutes, purified using a “Concert Rapid PCR Purification System” kit, taken up in 50 μl water, and then digested with BamHI. The thus treated vector fragment was subjected to electrophoresis on 1% agarose gel, purified using a “Concert Rapid PCR Purification System” kit and taken up in 50 μl water.

[0324] The DNA insert fragment bearing the gfp gene (0.7 kbp) was obtained from 10 μg of plasmid pBINm-gfp5-ER digested with SacI, purified using a “Concert Rapid PCR Purification System” kit, taken up in 50 μl water, and subjected to the action of 6 units of T4 DNA polymerase (New England Biolabs) in a reaction volume of 120 μl in the presence of 12 μl T4 10× DNA polymerase buffer, 4 μl 10 mM dNTP and 6 μl 1 mg/ml BSA. The reaction was carried out at 37° C. for 30 minutes. The thus treated plasmid pBINm-gfp5-ER was then purified using a “Concert Rapid PCR Purification System” kit, taken up in 50 μl water, and digested with BamHI. The DNA insert fragment thus produced was subjected to gel electrophoresis on 1% gel agarose in TEB buffer, purified using a “Concert Rapid PCR Purification System” kit and taken up in 50 μl in water.

[0325] The PCR ligation reaction was carried out with 100 ng of pMRT1205 vector fragment and 100 ng DNA insert fragment bearing the gfp gene as prepared above in a reaction volume of 20 μl in the presence of 2 μl T4 10× DNA ligase buffer (Epicentre Technologies), 2 μl 2.5 mM ATP and 4 units T4 DNA ligase (Epicentre Technologies). The reaction comprised 180 cycles each including two steps, the first at 10° C. for 30 seconds, the second at 30° C. for 30 seconds, in a “GeneAmp PCR System 9700” thermocycler.

[0326] Previously prepared competent Escherichia coli DH5 bacteria, were transformed (Hanahan, 1983). The plamsid DNA of the obtained clones, selected on LB media supplemented with kanamycin (50 mg/l), was extracted according to the alakline lysis method and verified by enzymatic digestion and sequencing. The resulting plasmid was designated pMRT1337 (FIG. 27). Its complete sequence is given in the sequence listing under SEQ.ID55.

[0327] 18. Synthesis of pMRT1341

[0328] The plasmid pMRT1341 (14108 bp) results from the replacement of the “ep35S-gus-polyA35S” expression cassette from pMRT1335 by the expression cassette “ep35S-gfp-polyA35S” isolated from pMRT1337.

[0329] 10 μg of plasmid pMRT1335 was digested by AgeI and KpnI. The thus digested vector fragment was isolated by electrophoresis on a 0.8% agarose gel, purified using a “Concert Rapid PCR Purification System” kit and then take up in 50 μl water.

[0330] The DNA insert fragment corresponding to the expression cassette “ep35S-gfp-polyA35S” (2.4 kbp) was obtained by digesting with XhoI of 10 μg plasmid pMRT1337, purifying using a “Concert Rapid PCR Purification System” kit, taking up in 50 μl water, and the action of 20 units of Klenow fragment (New England Biolabs) in the presence of 12 μl 500 mM pH7.5 Tris-HCl 500 mM MgCl2, 6 μl 1M dithiothreitol, 6 μl each of 10 mM dNTP in a reaction volume of 120 μl at 37° C. for 30 minutes, then, purifying using a “Concert Rapid PCR Purification System” kit, taking up in 50 μl water, and finally digesting with KpnI. The thus preapred DNA insert fragment was isolated by electrophoresis on 0.8% agarose gel in TEB buffer, purified using a “Concert Rapid PCR Purification System” kit, taken up in 50 μl water, digested with AgeI, purified using a “Concert Rapid PCR Purification System” and taken up again in 50 μl water.

[0331] The PCR ligation reaction was carried out on 100 ng vector fragment derived from pMRT1335 et 100 ng DNA insert fragment as produced above in a reaction volume of 20 μl in the presence of 2 μl T4 10× DNA ligase buffer (Epicentre Technologies), 2 μl 2,5 mM ATP and 4 units of T4 DNA ligase (Epicentre Technologies). The reaction comprised 180 cycles each including 2 steps, the first at 10° C. for 30 seconds, the second at 30° C. for 30 seconds, in a “GeneAmp PCR System 9700” thermocycler.

[0332] Previously prepared competent Escherichia coli DH5 bacteria, were transformed (Hanahan, 1983). The plamsid DNA of the obtained clones, selected on LB media supplemented with kanamycin (50 mg/l), was extracted according to the alakline lysis method and verified by enzymatic digestion and sequencing. The resulting plasmid was designated pMRT1341 (FIG. 28). Its complete sequence is given in the sequence listing under SEQ.ID56.

[0333] 19. Synthèse de pMRT1342

[0334] Plasmid pMRT1342 (15077 bp) results from the replacement of the expression cassette “ep35S-gus-polyA35S” from pMRT1335 by the expression cassette “L5-gus-polyA35S” isolated from pMRT1336.

[0335] 10 μg of plasmid pMRT1335 was digested with AgeI and KpnI. The thus digested vector fragment was isolated by electrophoresis on 0.8% agarose gel, purified using a “Concert Rapid PCR Purification System” kit and taken up in 50 μl water.

[0336] The DNA insert fragment corresponding to the expression casssette “L5-gus-polyA35S” (3.4 kbp) was obtained by digestion with XhoI of 10 μg plasmid pMRT1336, purified using a “Concert Rapid PCR Purification System” kit, taken up in 50 μl water, subjecting this to the action of 20 units Klenow fragment (New England Biolabs) in the presence of 12 μl 500 mM pH7.5 Tris-HCl 500 mM MgCl2, 6 μl 1M dithiothreitol, 6 μl each of 10 mM dNTP in a reaction volume of 120 μl at 37° C. for 30 minutes, then, purified using a “Concert Rapid PCR Purification System” kit, and taken up in 50 μl water, and finally digested with KpnI. The thus prepared DNA insert fragment was isolated by electrophoresis on a 0?8% agarose gel in TEB buffer, purified using a “Concert Rapid PCR Purification System” kit, taken up in 50 μl water, digested with AgeI, purified using a kit as above and take nup again in 50 μl water.

[0337] The PCR ligation reaction was carried out with 100 ng of vector fragment derived from pMRT1335 and 100 ng of DNA insert fragment prepared as described above in reaction mixture of 20 μl in the presence of 2 μl T4 10× DNA ligase buffer (Epicentre Technologies), 2 μl 2.5 mM ATP and 4 untis T4 DNA ligase (Epicentre Technologies). The reaction is comprised of 180 cycles each including 2 steps, the first at 10° C. for 30 seconds and the second at 30° C. for 30 seconds in a “GeneAmp PCR System 9700” thermocycler.

[0338] Previously prepared competent Escherichia coli DH5 bacteria, were transformed (Hanahan, 1983). The plamsid DNA of the obtained clones, selected on LB media supplemented with kanamycin (50 mg/l), was extracted according to the alakline lysis method and verified by enzymatic digestion and sequencing. The resulting plasmid was designated pMRT1342 (FIG. 29). Its complete sequence is given in the sequence listing under SEQ.ID57.

[0339] 20. Production of Recombinant Agrobacteria

[0340] The binary plamsids were transferred into the Agrobacterium tumefaciens LBA4404 strain according to the technique described by [Holsters et al. [Holsters M., Dewaele D., Depicker A., Messenf E., Van Montagu M. et Schell J. (1978). Transfection and transformation of Agrobacterium tumefaciens. Mol. Gen. Genet. 136, 181-187.]. The plasmid DNA of the obtained clones, selected on LB media supplemented with rifampicine (50 mg/l), was extracted according to the alkaline lysis method, modified by the addition of lysozyme (25 mg/ml) in the cell resuspension buffer. The plasmid DNA obtained was analysed by enzymatic digestion. The agrobacteria clones obtained were used for plant genetic transformation.

[0341] References

[0342] An G. 1986. Development of plant promoter expression vector and their use for analysis of differential activity of nopaline synthase promoter in transformed tobacco cells. Plant Physiol. 81:86-91.

[0343] Anderson O D, Green F C, Yip R E, Halford N G, Shewry P R and Malpica-Romero J M. 1989. Nucleotide sequences of the two high-molecular-weight glutenin genes from the D-genome of a hexaploid bread wheat, Triticum aestivum L. Cheyenne. Nucl. Acids Res. 17:461-462.

[0344] Birnboim H C and Doly J. 1979. A rapid alkaline extraction procedure for screening recombinant plasmid DNA. Nucl. Acids Res. 7:1513.

[0345] Depicker A, Stachel S, Dhaese P, Zambryski P and Goodman H M. 1982. Nopaline synthase: transcript mapping and DNA sequence. J. Mol. Appl. Genet. 1:561-573.

[0346] Finer J J, Vain P, Jones M W and McMullen M D. 1992. Development of the particle inflow gun for DNA delivery to plant cells. Plant Cell Rep. 11:323-328.

[0347] Franck A, Guilley H, Jonard G, Richards K and Hirth L. 1980. Nucleotide sequence of cauliflower mosaic virus DNA. Cell 21:285-294.

[0348] Frisch D A, Harris-Haller L W, Yokubaitis N T, Thomas T L, Hardin S H and Hall T C. 1995. Complete sequence of the binary vector Bin19. Plant Mol. Biol. 27: 405-409.

[0349] Guerineau F and Mullineaux P. 1993. Plant transformation and expression vectors. In Plant Molecular Biology Labfax. Croy RRD (ed). BIOS Scientific Publishers, Blackwell Scientific Publications, pp 121-147.

[0350] Hanahan D. 1983. Studies on transformation of Escherichia coli with plasmids. J. Mol. Biol. 166 :557.

[0351] Holsters M, Dewaele D, Depicker A, Messenf E, Van Montagu M and Schell J. 1978. Transfection and transformation of Agrobacterium tumefaciens. Mol. Gen. Genet. 136:181-187.

[0352] Horsch R B, Fry J E, Hoffinann N L, Eiholtz D, Rogers S G and Fraley R T. 1985. A simple and general method for transferring genes into plants. Science 227:1229-1231.

[0353] Ishida Y, Saito H, Ohta S, Hiei Y, Komari T and Kumashiro T. 1996. High efficiency transformation of maize (Zea mays L.) mediated by Agrobacterium tumefaciens. Nature Biotechnology 14:745-750.

[0354] Jefferson R A, Burgess S M and Hirsh D. 1986. b-glucuronidase from Escherichia coli as a gene-fusion marker. Proc. Natl. Acad. Sci. (USA) 83:8447-8451.

[0355] Kay R, Chan A, Daly M and McPherson J. 1987. Duplication of CaMV 35S promoter sequences creates a strong enhancer for plant genes. Science 236:1299-1302.

[0356] Klein T M, Wolf E D, Wu R and Sanford J C. 1987. High velocity microprojectiles for delivering nucleic acids into living cells. Nature 327:70-73.

[0357] Komari T, Hiei Y, Yasuhito S, Murai N and Kumashiro T. 1996. Vectors carrying two separate T-DNAs for co-transformation of higher plants mediated by Agrobacterium tumefaciens and segregation of transformants free from selection markers. Plant J. 10:165-174.

[0358] McElroy D, Blowers A D, Jenes B and Wu R. 1991. Construction of expression vectors based on the rice actin 1 (Act1) 5′ region for the use in monocot transformation. Mol. Gen. Genet. 231:150-160.

[0359] Michael S F. 1994. Mutagenesis by incorporation of a phosphorylated oligofor PCR amplification. BioTechniques 16:411-412.

[0360] Vain P, Yean H and Flament P. 1989. Enhancement of production and regeneration of embryogenic type II callus in Zea mays L. by AgNO₃. Plant Cell Tissue and Organ Culture 18:143-151.

1 57 1 3508 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1105 1 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggccttcta ccataatccg cgataaaccc agcgaaccat 660 ttgaggtgat aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat 720 tactctatga agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg 780 aggcagattg ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa 840 gatatcgccg tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata 900 tctatagaat gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat 960 aaccttatag cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact 1020 atgttatacg ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt 1080 tagaatgcaa ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc 1140 tttaaatact gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg 1200 aattgaaaaa actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg 1260 ctaaggtata taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc 1320 ggtataaagg gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag 1380 gaaagctgcc tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc 1440 tcatgagtga ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg 1500 aaaagattat cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg 1560 attgtcccta tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata 1620 acgatctggc cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc 1680 gcgagctgta tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg 1740 gcgacctggg agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc 1800 ttgggagaag cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca 1860 gggaggatat cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc 1920 ctgattggga gaaaataaaa tattatattt tactggatga attgttttag tacctagatg 1980 tggcgcaacg atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt 2040 ggctctcagg ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag 2100 ggcaagattc ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc 2160 attgccgata aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa 2220 gggcacattg ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg 2280 tttgaccgga aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc 2340 gaaaccatcg caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc 2400 tcgatggtcc agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct 2460 gccctgcccg cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca 2520 ggtttggcga agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa 2580 accgccggcg aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa 2640 cacacgaagc agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg 2700 gacacgatgc gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac 2760 aagaaaatcc cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg 2820 aagatcacct acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag 2880 gtgttggagt acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag 2940 ctttgccagg acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc 3000 ctgtcgcgcc tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa 3060 tcggtgtcgc tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc 3120 caggtcctga tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc 3180 atatgggaga agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc 3240 tcgcaccggg agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat 3300 tccacccgcg tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc 3360 agcggcctgg tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc 3420 cttgtggggt cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg 3480 aaaagaccga gcgcctttgc gacgctca 3508 2 4098 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1106 2 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg aaaagaccga 4080 gcgcctttgc gacgctca 4098 3 5971 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1118 3 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg tgcagattat ttggattgag agtaaatatg agactctaat tggataccga 5580 ggggaattta tggaacgtca gtggagcatt tttgacaaga aatatttgct agctgatagt 5640 gaccttaggc gacttttgaa cgcgcaataa tggtttctga cgtatgtgct tagctcatta 5700 aactccagaa acccgcggct gagtggctcc ttcaacggta ccgaagcttt gaattcactc 5760 gagcagattg tcgtttcccg ccttcagttt aaactatcag tgtttgacag gatatattgg 5820 cgggtaaacc taagagaaaa gagcgtttat tagaataatc ggatatttaa aagggcgtga 5880 aaaggtttat ccgttcgtcc atttgtatgt gcatgccaac cacagggttt accggttcct 5940 aggaaaagac cgagcgcctt tgcgacgctc a 5971 4 6016 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1119 4 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg tgcagattat ttggattgag agtaaatatg agactctaat tggataccga 5580 ggggaattta tggaacgtca gtggagcatt tttgacaaga aatatttgct agctgatagt 5640 gaccttaggc gacttttgaa cgcgcaataa tggtttctga cgtatgtgct tagctcatta 5700 aactccagaa acccgcggct gagtggctcc ttcaacggta ccgaagcttg gccggccgtt 5760 aacacgcgtg gatccttaat taagtcgact ctagagaatt cactcgagca gattgtcgtt 5820 tcccgccttc agtttaaact atcagtgttt gacaggatat attggcgggt aaacctaaga 5880 gaaaagagcg tttattagaa taatcggata tttaaaaggg cgtgaaaagg tttatccgtt 5940 cgtccatttg tatgtgcatg ccaaccacag ggtttaccgg ttcctaggaa aagaccgagc 6000 gcctttgcga cgctca 6016 5 6017 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1121 5 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accgaagctt ggccggccgt 5760 taacacgcgt ggatccttaa ttaagtcgac tctagagaat tcactcgagc agattgtcgt 5820 ttcccgcctt cagtttaaac tatcagtgtt tgacaggata tattggcggg taaacctaag 5880 agaaaagagc gtttattaga ataatcggat atttaaaagg gcgtgaaaag gtttatccgt 5940 tcgtccattt gtatgtgcat gccaaccaca gggtttaccg gttcctagga aaagaccgag 6000 cgcctttgcg acgctca 6017 6 6016 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1122 6 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcttcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg tgcagattat ttggattgag agtaaatatg agactctaat tggataccga 5580 ggggaattta tggaacgtca gtggagcatt tttgacaaga aatatttgct agctgatagt 5640 gaccttaggc gacttttgaa cgcgcaataa tggtttctga cgtatgtgct tagctcatta 5700 aactccagaa acccgcggct gagtggctcc ttcaacggta ccgaagcttg gccggccgtt 5760 aacacgcgtg gatccttaat taagtcgact ctagagaatt cactcgagca gattgtcgtt 5820 tcccgccttc agtttaaact atcagtgttt gacaggatat attggcgggt aaacctaaga 5880 gaaaagagcg tttattagaa taatcggata tttaaaaggg cgtgaaaagg tttatccgtt 5940 cgtccatttg tatgtgcatg ccaaccacag ggtttaccgg ttcctaggaa aagaccgagc 6000 gcctttgcga cgctca 6016 7 6017 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1155 7 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcttcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accgaagctt ggccggccgt 5760 taacacgcgt ggatccttaa ttaagtcgac tctagagaat tcactcgagc agattgtcgt 5820 ttcccgcctt cagtttaaac tatcagtgtt tgacaggata tattggcggg taaacctaag 5880 agaaaagagc gtttattaga ataatcggat atttaaaagg gcgtgaaaag gtttatccgt 5940 tcgtccattt gtatgtgcat gccaaccaca gggtttaccg gttcctagga aaagaccgag 6000 cgcctttgcg acgctca 6017 8 6767 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1175 8 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accgaagctt ggccggccgt 5760 taacacgcgt ggatccttaa ttaagtcgac tctagagaat tcggtacgct gaaatcacca 5820 gtctctctct acaaatctat ctctctctat tttctccata aataatgtgt gagtagtttc 5880 ccgataaggg aaattagggt tcttataggg tttcgctcat gtgttgagca tataagaaac 5940 ccttagtatg tatttgtatt tgtaaaatac ttctatcaat aaaatttcta attcctaaaa 6000 ccaaaatcca gtactaaaat ccagatctcc taaagtccct atagatcttt gtcgtgaata 6060 taaaccagac acgagacgac taaacctgga gcccagacgc cgttcgaagc tagaagtacc 6120 gcttaggcag gaggccgtta gggaaaagat gctaaggcag ggttggttac gttgactccc 6180 ccgtaggttt ggtttaaata tgatgaagtg gacggaagga aggaggaaga caaggaagga 6240 taaggttgca ggccctgtgc aaggtaagaa gatggaaatt tgatagaggt acgctactat 6300 acttatacta tacgctaagg gaatgcttgt atttataccc tataccccct aataacccct 6360 tatcaattta agaaataatc cgcataagcc cccgcttaaa aattggtatc agagccatga 6420 ataggtctat gaccaaaact caagaggata aaacctcacc aaaatacgaa agagttctta 6480 actctaaaga taaaagatct ttcaagatca aaactagttc cctcacaccg gtgacgggga 6540 tcgcatgcga tatctcgagc agattgtcgt ttcccgcctt cagtttaaac tatcagtgtt 6600 tgacaggata tattggcggg taaacctaag agaaaagagc gtttattaga ataatcggat 6660 atttaaaagg gcgtgaaaag gtttatccgt tcgtccattt gtatgtgcat gccaaccaca 6720 gggtttaccg gttcctagga aaagaccgag cgcctttgcg acgctca 6767 9 6767 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1176 9 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcttcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accgaagctt ggccggccgt 5760 taacacgcgt ggatccttaa ttaagtcgac tctagagaat tcggtacgct gaaatcacca 5820 gtctctctct acaaatctat ctctctctat tttctccata aataatgtgt gagtagtttc 5880 ccgataaggg aaattagggt tcttataggg tttcgctcat gtgttgagca tataagaaac 5940 ccttagtatg tatttgtatt tgtaaaatac ttctatcaat aaaatttcta attcctaaaa 6000 ccaaaatcca gtactaaaat ccagatctcc taaagtccct atagatcttt gtcgtgaata 6060 taaaccagac acgagacgac taaacctgga gcccagacgc cgttcgaagc tagaagtacc 6120 gcttaggcag gaggccgtta gggaaaagat gctaaggcag ggttggttac gttgactccc 6180 ccgtaggttt ggtttaaata tgatgaagtg gacggaagga aggaggaaga caaggaagga 6240 taaggttgca ggccctgtgc aaggtaagaa gatggaaatt tgatagaggt acgctactat 6300 acttatacta tacgctaagg gaatgcttgt atttataccc tataccccct aataacccct 6360 tatcaattta agaaataatc cgcataagcc cccgcttaaa aattggtatc agagccatga 6420 ataggtctat gaccaaaact caagaggata aaacctcacc aaaatacgaa agagttctta 6480 actctaaaga taaaagatct ttcaagatca aaactagttc cctcacaccg gtgacgggga 6540 tcgcatgcga tatctcgagc agattgtcgt ttcccgcctt cagtttaaac tatcagtgtt 6600 tgacaggata tattggcggg taaacctaag agaaaagagc gtttattaga ataatcggat 6660 atttaaaagg gcgtgaaaag gtttatccgt tcgtccattt gtatgtgcat gccaaccaca 6720 gggtttaccg gttcctagga aaagaccgag cgcctttgcg acgctca 6767 10 4805 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1191 10 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc cgaagcttgg ccggccgtta acacgcgtgg 4560 atccttaatt aagtcgactc tagagaattc actcgagcag attgtcgttt cccgccttca 4620 gtttaaacta tcagtgtttg acaggatata ttggcgggta aacctaagag aaaagagcgt 4680 ttattagaat aatcggatat ttaaaagggc gtgaaaaggt ttatccgttc gtccatttgt 4740 atgtgcatgc caaccacagg gtttaccggt tcctaggaaa agaccgagcg cctttgcgac 4800 gctca 4805 11 8654 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1192 11 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggcagttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcttcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accgaagctt ggccggccgt 5760 taacacgcgt ggatccttaa ttaagtcgac tctaggggtg gtcagtccct tatgttacgt 5820 cctgtagaaa ccccaacccg tgaaatcaaa aaactcgacg gcctgtgggc attcagtctg 5880 gatcgcgaaa actgtggaat tgatcagcgt tggtgggaaa gcgcgttaca agaaagccgg 5940 gcaattgctg tgccaggcag ttttaacgat cagttcgccg atgcagatat tcgtaattat 6000 gcgggcaacg tctggtatca gcgcgaagtc tttataccga aaggttgggc aggccagcgt 6060 atcgtgctgc gtttcgatgc ggtcactcat tacggcaaag tgtgggtcaa taatcaggaa 6120 gtgatggagc atcagggcgg ctatacgcca tttgaagccg atgtcacgcc gtatgttatt 6180 gccgggaaaa gtgtacgtat caccgtttgt gtgaacaacg aactgaactg gcagactatc 6240 ccgccgggaa tggtgattac cgacgaaaac ggcaagaaaa agcagtctta cttccatgat 6300 ttctttaact atgccggaat ccatcgcagc gtaatgctct acaccacgcc gaacacctgg 6360 gtggacgata tcaccgtggt gacgcatgtc gcgcaagact gtaaccacgc gtctgttgac 6420 tggcaggtgg tggccaatgg tgatgtcagc gttgaactgc gtgatgcgga tcaacaggtg 6480 gttgcaactg gacaaggcac tagcgggact ttgcaagtgg tgaatccgca cctctggcaa 6540 ccgggtgaag gttatctcta tgaactgtgc gtcacagcca aaagccagac agagtgtgat 6600 atctacccgc ttcgcgtcgg catccggtca gtggcagtga agggcgaaca gttcctgatt 6660 aaccacaaac cgttctactt tactggcttt ggtcgtcatg aagatgcgga cttgcgtggc 6720 aaaggattcg ataacgtgct gatggtgcac gaccacgcat taatggactg gattggggcc 6780 aactcctacc gtacctcgca ttacccttac gctgaagaga tgctcgactg ggcagatgaa 6840 catggcatcg tggtgattga tgaaactgct gctgtcggct ttaacctctc tttaggcatt 6900 ggtttcgaag cgggcaacaa gccgaaagaa ctgtacagcg aagaggcagt caacggggaa 6960 actcagcaag cgcacttaca ggcgattaaa gagctgatag cgcgtgacaa aaaccaccca 7020 agcgtggtga tgtggagtat tgccaacgaa ccggataccc gtccgcaagg tgcacgggaa 7080 tatttcgcgc cactggcgga agcaacgcgt aaactcgacc cgacgcgtcc gatcacctgc 7140 gtcaatgtaa tgttctgcga cgctcacacc gataccatca gcgatctctt tgatgtgctg 7200 tgcctgaacc gttattacgg atggtatgtc caaagcggcg atttggaaac ggcagagaag 7260 gtactggaaa aagaacttct ggcctggcag gagaaactgc atcagccgat tatcatcacc 7320 gaatacggcg tggatacgtt agccgggctg cactcaatgt acaccgacat gtggagtgaa 7380 gagtatcagt gtgcatggct ggatatgtat caccgcgtct ttgatcgcgt cagcgccgtc 7440 gtcggtgaac aggtatggaa tttcgccgat tttgcgacct cgcaaggcat attgcgcgtt 7500 ggcggtaaca agaaagggat cttcactcgc gaccgcaaac cgaagtcggc ggcttttctg 7560 ctgcaaaaac gctggactgg catgaacttc ggtgaaaaac cgcagcaggg aggcaaacaa 7620 tgaatcaaca actctcctgg cgcaccatcg tcggctacag cctcgggaat tgctaccgct 7680 agagaattcg gtacgctgaa atcaccagtc tctctctaca aatctatctc tctctatttt 7740 ctccataaat aatgtgtgag tagtttcccg ataagggaaa ttagggttct tatagggttt 7800 cgctcatgtg ttgagcatat aagaaaccct tagtatgtat ttgtatttgt aaaatacttc 7860 tatcaataaa atttctaatt cctaaaacca aaatccagta ctaaaatcca gatctcctaa 7920 agtccctata gatctttgtc gtgaatataa accagacacg agacgactaa acctggagcc 7980 cagacgccgt tcgaagctag aagtaccgct taggcaggag gccgttaggg aaaagatgct 8040 aaggcagggt tggttacgtt gactcccccg taggtttggt ttaaatatga tgaagtggac 8100 ggaaggaagg aggaagacaa ggaaggataa ggttgcaggc cctgtgcaag gtaagaagat 8160 ggaaatttga tagaggtacg ctactatact tatactatac gctaagggaa tgcttgtatt 8220 tataccctat accccctaat aaccccttat caatttaaga aataatccgc ataagccccc 8280 gcttaaaaat tggtatcaga gccatgaata ggtctatgac caaaactcaa gaggataaaa 8340 cctcaccaaa atacgaaaga gttcttaact ctaaagataa aagatctttc aagatcaaaa 8400 ctagttccct cacaccggtg acggggatcg catgcgatat ctcgagcaga ttgtcgtttc 8460 ccgccttcag tttaaactat cagtgtttga caggatatat tggcgggtaa acctaagaga 8520 aaagagcgtt tattagaata atcggatatt taaaagggcg tgaaaaggtt tatccgttcg 8580 tccatttgta tgtgcatgcc aaccacaggg tttaccggtt cctaggaaaa gaccgagcgc 8640 ctttgcgacg ctca 8654 12 9143 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1193 12 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg tgcagattat ttggattgag agtaaatatg agactctaat tggataccga 5580 ggggaattta tggaacgtca gtggagcatt tttgacaaga aatatttgct agctgatagt 5640 gaccttaggc gacttttgaa cgcgcaataa tggtttctga cgtatgtgct tagctcatta 5700 aactccagaa acccgcggct gagtggctcc ttcaacggta ccgaagcttg gccggccgtt 5760 aacacgcgtg gatccttaat taagtcgact ctagagaatt cccagctttg agtggccgta 5820 gatttgcaaa agcaatggct aacagacaca tattctgcca aaccccaaga aggataatca 5880 cttttcttag ataaaaaaga acagaccaat atacaaacat ccacacttct gcaaacaata 5940 catcagaact aggattacgc cgattacgtg gctttagcag actgtccaaa aatctgtttt 6000 gcaaagctcc aattgctcct tgcttatcca gcttcttttg tgttggcaaa ctgcgctttt 6060 ccaaccgatt ttgttcttct cgcgctttct tcttaggcta aacaaacctc accgtgcacg 6120 cagccatggt cctgaacctt cacctcgtcc ctataaaagc ctagccaacc ttcacaatct 6180 tatcatcacc cacaacaccg agcaccacaa actagagatc cccggggatc cacgcgtctt 6240 aaggcggccg cggtaccggg cccgtcgact ctagagcggc cgccaccgcg gtggagctcc 6300 tcccccctcc ccctccgccg ccgccgcgcc ggtaaccacc ccgcccctct cctctttctt 6360 tctccgtttt ttttttccgt ctcggtctcg atctttggcc ttggtagttt gggtgggcga 6420 gaggcggctt cgtgcgcgcc cagatcggtg cgcgggaggg gcgggatctc gcggctgggg 6480 ctctcgccgg cgtggatccg gcccggatct cgcggggaat ggggctctcg gatgtagatc 6540 tgcgatccgc cgttgttggg ggagatgatg gggggtttaa aatttccgcc atgctaaaca 6600 agatcaggaa gaggggaaaa gggcactatg gtttatattt ttatatattt ctgctgcttc 6660 gtcaggctta gatgtgctag atctttcttt cttctttttg tgggtagaat ttgaatccct 6720 cagcattgtt catcggtagt ttttcttttc atgatttgtg acaaatgcag cctcgtgcgg 6780 agcttttttg taggtagacc atggtccgtc ctgtagaaac cccaacccgt gaaatcaaaa 6840 aactcgacgg cctgtgggca ttcagtctgg atcgcgaaaa ctgtggaatt gatcagcgtt 6900 ggtgggaaag cgcgttacaa gaaagccggg caattgctgt gccaggcagt tttaacgatc 6960 agttcgccga tgcagatatt cgtaattatg cgggcaacgt ctggtatcag cgcgaagtct 7020 ttataccgaa aggttgggca ggccagcgta tcgtgctgcg tttcgatgcg gtcactcatt 7080 acggcaaagt gtgggtcaat aatcaggaag tgatggagca tcagggcggc tatacgccat 7140 ttgaagccga tgtcacgccg tatgttattg ccgggaaaag tgtacgtatc accgtttgtg 7200 tgaacaacga actgaactgg cagactatcc cgccgggaat ggtgattacc gacgaaaacg 7260 gcaagaaaaa gcagtcttac ttccatgatt tctttaacta tgccggaatc catcgcagcg 7320 taatgctcta caccacgccg aacacctggg tggacgatat caccgtggtg acgcatgtcg 7380 cgcaagactg taaccacgcg tctgttgact ggcaggtggt ggccaatggt gatgtcagcg 7440 ttgaactgcg tgatgcggat caacaggtgg ttgcaactgg acaaggcact agcgggactt 7500 tgcaagtggt gaatccgcac ctctggcaac cgggtgaagg ttatctctat gaactgtgcg 7560 tcacagccaa aagccagaca gagtgtgata tctacccgct tcgcgtcggc atccggtcag 7620 tggcagtgaa gggccaacag ttcctgatta accacaaacc gttctacttt actggctttg 7680 gtcgtcatga agatgcggac ttacgtggca aaggattcga taacgtgctg atggtgcacg 7740 accacgcatt aatggactgg attggggcca actcctaccg tacctcgcat tacccttacg 7800 ctgaagagat gctcgactgg gcagatgaac atggcatcgt ggtgattgat gaaactgctg 7860 ctgtcggctt taacctctct ttaggcattg gtttcgaagc gggcaacaag ccgaaagaac 7920 tgtacagcga agaggcagtc aacggggaaa ctcagcaagc gcacttacag gcgattaaag 7980 agctgatagc gcgtgacaaa aaccacccaa gcgtggtgat gtggagtatt gccaacgaac 8040 cggatacccg tccgcaagtg cacgggaata tttcgccact ggcggaagca acgcgtaaac 8100 tcgacccgac gcgtccgatc acctgcgtca atgtaatgtt ctgcgacgct cacaccgata 8160 ccatcagcga tctctttgat gtgctgtgcc tgaaccgtta ttacggatgg tatgtccaaa 8220 gcggcgattt ggaaacggca gagaaggtac tggaaaaaga acttctggcc tggcaggaga 8280 aactgcatca gccgattatc atcaccgaat acggcgtgga tacgttagcc gggctgcact 8340 caatgtacac cgacatgtgg agtgaagagt atcagtgtgc atggctggat atgtatcacc 8400 gcgtctttga tcgcgtcagc gccgtcgtcg gtgaacaggt atggaatttc gccgattttg 8460 cgacctcgca aggcatattg cgcgttggcg gtaacaagaa agggatcttc actcgcgacc 8520 gcaaaccgaa gtcggcggct tttctgctgc aaaaacgctg gactggcatg aacttcggtg 8580 aaaaaccgca gcagggaggc aaacaatgaa tcaacaactc tcctggcgca ccatcgtcgg 8640 ctacagcctc gggaatttcc ccgatcgttc aaacatttgg caataaagtt tcttaagatt 8700 gaatcctgtt gccggtcttg cgatgattat catataattt ctgttgaatt acgttaagca 8760 tgtaataatt aacatgtaat gcatgacgtt atttatgaga tgggttttta tgattagagt 8820 cccgcaatta tacatttaat acgcgataga aaacaaaata tagcgcgcaa actaggataa 8880 attatcgcgc gcggtgtcat ctatgttact agatcgggaa ttgccaagct tcgagcagat 8940 tgtcgtttcc cgccttcagt ttaaactatc agtgtttgac aggatatatt ggcgggtaaa 9000 cctaagagaa aagagcgttt attagaataa tcggatattt aaaagggcgt gaaaaggttt 9060 atccgttcgt ccatttgtat gtgcatgcca accacagggt ttaccggttc ctaggaaaag 9120 accgagcgcc tttgcgacgc tca 9143 13 6865 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1195 13 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc ctagaactag tggatccccc gggtcatcag 4560 atctcggtga cgggcaggac cggacggggc ggtaccggca ggctgaagtc cagctgccag 4620 aaacccacgt catgccagtt cccgtgcttg aagccggccg cccgcagcat gccgcggggg 4680 gcatatccga gcgcctcgtg catgcgcacg ctcgggtcgt tgggcagccc gatgacagcg 4740 accacgctct tgaagccctg tgcctccagg gacttcagca ggtgggtgta gagcgtggag 4800 cccagtcccg tccgctggtg gcggggggag acgtacacgg tcgactcggc cgtccagtcg 4860 taggcgttgc gtgccttcca ggggcccgcg taggcgatgc cggcgacctc gccgtccacc 4920 tcggcgacga gccagggata gcgctcccgc agacggacga ggtcgtccgt ccactcctgc 4980 ggttcctgcg gctcggtacg gaagttgacc gtgcttgtct cgatgtagtg gttgacgatg 5040 gtgcagaccg ccggcatgtc cgcctcggtg gcacggcgga tgtcggccgg gcgtcgttct 5100 gggctcatgg tagatccccg ggctgcagga attcgatatc aagcttatcg tctacctaca 5160 aaaaagctcc gcacgaggct gcatttgtca caaatcatga aaagaaaaac taccgatgaa 5220 caatgctgag ggattcaaat tctacccaca aaaagaagaa agaaagatct agcacatcta 5280 agcctgacga agcagcagaa atatataaaa atataaacca tagtgccctt ttcccctctt 5340 cctgatcttg tttagcatgg cggaaatttt aaacccccca tcatctcccc caacaacggc 5400 ggatcgcaga tctacatccg agagccccat tccccgcgag atccgggccg gatccacgcc 5460 ggcgagagcc ccagccgcga gatcccgccc ctcccgcgca ccgatctggg cgcgcacgaa 5520 gccgcctctc gcccacccaa actaccaagg ccaaagatcg agaccgagac ggaaaaaaaa 5580 aacggagaaa gaaagaggag aggggcgggg tggttaccgg cgcggcggcg gcggaggggg 5640 aggggggagg agctcgtcgt ccggcagcga ggggggagga ggtggaggtg gtggtggtgg 5700 tggtggtagg gttgggggga tgggaggaga ggggggggta tgtatatagt ggcgatgggg 5760 ggcgtttctt tggaagcgga gggagggccg gcctcgtcgc tggctcgcga tcctcctcgc 5820 gtttccggcc cccacgaccc ggacccacct gctgtttttc cttttccttt ttttccttcc 5880 tttttttttt ttgggcagcg agacgtgcgg tgcgtgcgga caactcacgg tgatagtggg 5940 ggggtgtgga gactattgtc cagttggctg gactggggtg ggttgggttg ggttgggttg 6000 ggctgggctt gctatggatc gtggatagca ctttgggctt taggaacttt aggggttgtt 6060 tttgtaaatg tttggagtct aagtttatct tttattttta ctagaaaaaa tacccatgcg 6120 ctgcaacggg ggaaagctat tttaatctta ttattgttca ttgtgagaat tcgcctgaat 6180 atatattttt ctcaaaaatt atgtcaaatt agcatatggg tttttttaaa gatatttctt 6240 atacaaatcc ctctgtattt acaaaagcaa acgaacttaa aacccgactc aaatacagat 6300 atgcatttcc aaaagcgaat aaacttaaaa accaattcat acaaaaatga cgtatcaaag 6360 taccgacaaa aacatcctca atttttataa tagtagaaaa gagtaaattt cactttgggc 6420 caccttttat taccgatatt ttactttata ccacctttta actgatgttt tcacttttga 6480 ccaggtaatc ttacctttgt tttattttgg actatcccga ctctcttctc aagcatatga 6540 atgactcgac ctgcaggcat gcaagcttca gctgctcgat cgaggtctag cgaagcttgg 6600 ccggccgtta acacgcgtgg atccttaatt aagtcgactc tagagaattc actcgagcag 6660 attgtcgttt cccgccttca gtttaaacta tcagtgtttg acaggatata ttggcgggta 6720 aacctaagag aaaagagcgt ttattagaat aatcggatat ttaaaagggc gtgaaaaggt 6780 ttatccgttc gtccatttgt atgtgcatgc caaccacagg gtttaccggt tcctaggaaa 6840 agaccgagcg cctttgcgac gctca 6865 14 8654 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1196 14 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accgaagctt ggccggccgt 5760 taacacgcgt ggatccttaa ttaagtcgac tctaggggtg gtcagtccct tatgttacgt 5820 cctgtagaaa ccccaacccg tgaaatcaaa aaactcgacg gcctgtgggc attcagtctg 5880 gatcgcgaaa actgtggaat tgatcagcgt tggtgggaaa gcgcgttaca agaaagccgg 5940 gcaattgctg tgccaggcag ttttaacgat cagttcgccg atgcagatat tcgtaattat 6000 gcgggcaacg tctggtatca gcgcgaagtc tttataccga aaggttgggc aggccagcgt 6060 atcgtgctgc gtttcgatgc ggtcactcat tacggcaaag tgtgggtcaa taatcaggaa 6120 gtgatggagc atcagggcgg ctatacgcca tttgaagccg atgtcacgcc gtatgttatt 6180 gccgggaaaa gtgtacgtat caccgtttgt gtgaacaacg aactgaactg gcagactatc 6240 ccgccgggaa tggtgattac cgacgaaaac ggcaagaaaa agcagtctta cttccatgat 6300 ttctttaact atgccggaat ccatcgcagc gtaatgctct acaccacgcc gaacacctgg 6360 gtggacgata tcaccgtggt gacgcatgtc gcgcaagact gtaaccacgc gtctgttgac 6420 tggcaggtgg tggccaatgg tgatgtcagc gttgaactgc gtgatgcgga tcaacaggtg 6480 gttgcaactg gacaaggcac tagcgggact ttgcaagtgg tgaatccgca cctctggcaa 6540 ccgggtgaag gttatctcta tgaactgtgc gtcacagcca aaagccagac agagtgtgat 6600 atctacccgc ttcgcgtcgg catccggtca gtggcagtga agggcgaaca gttcctgatt 6660 aaccacaaac cgttctactt tactggcttt ggtcgtcatg aagatgcgga cttgcgtggc 6720 aaaggattcg ataacgtgct gatggtgcac gaccacgcat taatggactg gattggggcc 6780 aactcctacc gtacctcgca ttacccttac gctgaagaga tgctcgactg ggcagatgaa 6840 catggcatcg tggtgattga tgaaactgct gctgtcggct ttaacctctc tttaggcatt 6900 ggtttcgaag cgggcaacaa gccgaaagaa ctgtacagcg aagaggcagt caacggggaa 6960 actcagcaag cgcacttaca ggcgattaaa gagctgatag cgcgtgacaa aaaccaccca 7020 agcgtggtga tgtggagtat tgccaacgaa ccggataccc gtccgcaagg tgcacgggaa 7080 tatttcgcgc cactggcgga agcaacgcgt aaactcgacc cgacgcgtcc gatcacctgc 7140 gtcaatgtaa tgttctgcga cgctcacacc gataccatca gcgatctctt tgatgtgctg 7200 tgcctgaacc gttattacgg atggtatgtc caaagcggcg atttggaaac ggcagagaag 7260 gtactggaaa aagaacttct ggcctggcag gagaaactgc atcagccgat tatcatcacc 7320 gaatacggcg tggatacgtt agccgggctg cactcaatgt acaccgacat gtggagtgaa 7380 gagtatcagt gtgcatggct ggatatgtat caccgcgtct ttgatcgcgt cagcgccgtc 7440 gtcggtgaac aggtatggaa tttcgccgat tttgcgacct cgcaaggcat attgcgcgtt 7500 ggcggtaaca agaaagggat cttcactcgc gaccgcaaac cgaagtcggc ggcttttctg 7560 ctgcaaaaac gctggactgg catgaacttc ggtgaaaaac cgcagcaggg aggcaaacaa 7620 tgaatcaaca actctcctgg cgcaccatcg tcggctacag cctcgggaat tgctaccgct 7680 agagaattcg gtacgctgaa atcaccagtc tctctctaca aatctatctc tctctatttt 7740 ctccataaat aatgtgtgag tagtttcccg ataagggaaa ttagggttct tatagggttt 7800 cgctcatgtg ttgagcatat aagaaaccct tagtatgtat ttgtatttgt aaaatacttc 7860 tatcaataaa atttctaatt cctaaaacca aaatccagta ctaaaatcca gatctcctaa 7920 agtccctata gatctttgtc gtgaatataa accagacacg agacgactaa acctggagcc 7980 cagacgccgt tcgaagctag aagtaccgct taggcaggag gccgttaggg aaaagatgct 8040 aaggcagggt tggttacgtt gactcccccg taggtttggt ttaaatatga tgaagtggac 8100 ggaaggaagg aggaagacaa ggaaggataa ggttgcaggc cctgtgcaag gtaagaagat 8160 ggaaatttga tagaggtacg ctactatact tatactatac gctaagggaa tgcttgtatt 8220 tataccctat accccctaat aaccccttat caatttaaga aataatccgc ataagccccc 8280 gcttaaaaat tggtatcaga gccatgaata ggtctatgac caaaactcaa gaggataaaa 8340 cctcaccaaa atacgaaaga gttcttaact ctaaagataa aagatctttc aagatcaaaa 8400 ctagttccct cacaccggtg acggggatcg catgcgatat ctcgagcaga ttgtcgtttc 8460 ccgccttcag tttaaactat cagtgtttga caggatatat tggcgggtaa acctaagaga 8520 aaagagcgtt tattagaata atcggatatt taaaagggcg tgaaaaggtt tatccgttcg 8580 tccatttgta tgtgcatgcc aaccacaggg tttaccggtt cctaggaaaa gaccgagcgc 8640 ctttgcgacg ctca 8654 15 7943 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1201 15 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc cgaagcttgg ccggccgtta acacgcgtgg 4560 atccttaatt aagtcgactc tagagaatta attcccagct ttgagtggcc gtagatttgc 4620 aaaagcaatg gctaacagac acatattctg ccaaacccca agaaggataa tcacttttct 4680 tagataaaaa agaacagacc aatatacaaa catccacact tctgcaaaca atacatcaga 4740 actaggatta cgccgattac gtggctttag cagactgtcc aaaaatctgt tttgcaaagc 4800 tccaattgct ccttgcttat ccagcttctt ttgtgttggc aaactgcgct tttccaaccg 4860 attttgttct tctcgcgctt tcttcttagg ctaaacaaac ctcaccgtgc acgcagccat 4920 ggtcctgaac cttcacctcg tccctataaa agcctagcca accttcacaa tcttatcatc 4980 acccacaaca ccgagcacca caaactagag atccccgggg atccacgcgt cttaaggcgg 5040 ccgcggtacc gggcccgtcg actctagagc ggccgccacc gcggtggagc tcctcccccc 5100 tccccctccg ccgccgccgc gccggtaacc accccgcccc tctcctcttt ctttctccgt 5160 tttttttttc cgtctcggtc tcgatctttg gccttggtag tttgggtggg cgagaggcgg 5220 cttcgtgcgc gcccagatcg gtgcgcggga ggggcgggat ctcgcggctg gggctctcgc 5280 cggcgtggat ccggcccgga tctcgcgggg aatggggctc tcggatgtag atctgcgatc 5340 cgccgttgtt gggggagatg atggggggtt taaaatttcc gccatgctaa acaagatcag 5400 gaagagggga aaagggcact atggtttata tttttatata tttctgctgc ttcgtcaggc 5460 ttagatgtgc tagatctttc tttcttcttt ttgtgggtag aatttgaatc cctcagcatt 5520 gttcatcggt agtttttctt ttcatgattt gtgacaaatg cagcctcgtg cggagctttt 5580 ttgtaggtag accatggtcc gtcctgtaga aaccccaacc cgtgaaatca aaaaactcga 5640 cggcctgtgg gcattcagtc tggatcgcga aaactgtgga attgatcagc gttggtggga 5700 aagcgcgtta caagaaagcc gggcaattgc tgtgccaggc agttttaacg atcagttcgc 5760 cgatgcagat attcgtaatt atgcgggcaa cgtctggtat cagcgcgaag tctttatacc 5820 gaaaggttgg gcaggccagc gtatcgtgct gcgtttcgat gcggtcactc attacggcaa 5880 agtgtgggtc aataatcagg aagtgatgga gcatcagggc ggctatacgc catttgaagc 5940 cgatgtcacg ccgtatgtta ttgccgggaa aagtgtacgt atcaccgttt gtgtgaacaa 6000 cgaactgaac tggcagacta tcccgccggg aatggtgatt accgacgaaa acggcaagaa 6060 aaagcagtct tacttccatg atttctttaa ctatgccgga atccatcgca gcgtaatgct 6120 ctacaccacg ccgaacacct gggtggacga tatcaccgtg gtgacgcatg tcgcgcaaga 6180 ctgtaaccac gcgtctgttg actggcaggt ggtggccaat ggtgatgtca gcgttgaact 6240 gcgtgatgcg gatcaacagg tggttgcaac tggacaaggc actagcggga ctttgcaagt 6300 ggtgaatccg cacctctggc aaccgggtga aggttatctc tatgaactgt gcgtcacagc 6360 caaaagccag acagagtgtg atatctaccc gcttcgcgtc ggcatccggt cagtggcagt 6420 gaagggccaa cagttcctga ttaaccacaa accgttctac tttactggct ttggtcgtca 6480 tgaagatgcg gacttacgtg gcaaaggatt cgataacgtg ctgatggtgc acgaccacgc 6540 attaatggac tggattgggg ccaactccta ccgtacctcg cattaccctt acgctgaaga 6600 gatgctcgac tgggcagatg aacatggcat cgtggtgatt gatgaaactg ctgctgtcgg 6660 ctttaacctc tctttaggca ttggtttcga agcgggcaac aagccgaaag aactgtacag 6720 cgaagaggca gtcaacgggg aaactcagca agcgcactta caggcgatta aagagctgat 6780 agcgcgtgac aaaaaccacc caagcgtggt gatgtggagt attgccaacg aaccggatac 6840 ccgtccgcaa gtgcacggga atatttcgcc actggcggaa gcaacgcgta aactcgaccc 6900 gacgcgtccg atcacctgcg tcaatgtaat gttctgcgac gctcacaccg ataccatcag 6960 cgatctcttt gatgtgctgt gcctgaaccg ttattacgga tggtatgtcc aaagcggcga 7020 tttggaaacg gcagagaagg tactggaaaa agaacttctg gcctggcagg agaaactgca 7080 tcagccgatt atcatcaccg aatacggcgt ggatacgtta gccgggctgc actcaatgta 7140 caccgacatg tggagtgaag agtatcagtg tgcatggctg gatatgtatc accgcgtctt 7200 tgatcgcgtc agcgccgtcg tcggtgaaca ggtatggaat ttcgccgatt ttgcgacctc 7260 gcaaggcata ttgcgcgttg gcggtaacaa gaaagggatc ttcactcgcg accgcaaacc 7320 gaagtcggcg gcttttctgc tgcaaaaacg ctggactggc atgaacttcg gtgaaaaacc 7380 gcagcaggga ggcaaacaat gaatcaacaa ctctcctggc gcaccatcgt cggctacagc 7440 ctcgggaatt tccccgatcg ttcaaacatt tggcaataaa gtttcttaag attgaatcct 7500 gttgccggtc ttgcgatgat tatcatataa tttctgttga attacgttaa gcatgtaata 7560 attaacatgt aatgcatgac gttatttatg agatgggttt ttatgattag agtcccgcaa 7620 ttatacattt aatacgcgat agaaaacaaa atatagcgcg caaactagga taaattatcg 7680 cgcgcggtgt catctatgtt actagatcgg gaattgccaa gctaattcac tcgagcagat 7740 tgtcgtttcc cgccttcagt ttaaactatc agtgtttgac aggatatatt ggcgggtaaa 7800 cctaagagaa aagagcgttt attagaataa tcggatattt aaaagggcgt gaaaaggttt 7860 atccgttcgt ccatttgtat gtgcatgcca accacagggt ttaccggttc ctaggaaaag 7920 accgagcgcc tttgcgacgc tca 7943 16 5614 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1202 16 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc ctagaactag tggatccccc gggtcatcag 4560 atctcggtga cgggcaggac cggacggggc ggtaccggca ggctgaagtc cagctgccag 4620 aaacccacgt catgccagtt cccgtgcttg aagccggccg cccgcagcat gccgcggggg 4680 gcatatccga gcgcctcgtg catgcgcacg ctcgggtcgt tgggcagccc gatgacagcg 4740 accacgctct tgaagccctg tgcctccagg gacttcagca ggtgggtgta gagcgtggag 4800 cccagtcccg tccgctggtg gcggggggag acgtacacgg tcgactcggc cgtccagtcg 4860 taggcgttgc gtgccttcca ggggcccgcg taggcgatgc cggcgacctc gccgtccacc 4920 tcggcgacga gccagggata gcgctcccgc agacggacga ggtcgtccgt ccactcctgc 4980 ggttcctgcg gctcggtacg gaagttgacc gtgcttgtct cgatgtagtg gttgacgatg 5040 gtgcagaccg ccggcatgtc cgcctcggtg gcacggcgga tgtcggccgg gcgtcgttct 5100 gggctcatgg tagatccccg ggcccggatg cagattattt ggattgagag taaatatgag 5160 actctaattg gataccgagg ggaatttatg gaacgtcagt ggagcatttt tgacaagaaa 5220 tatttgctag ctgatagtga ccttaggcga cttttgaacg cgcaataatg gtttctgacg 5280 tatgtgctta gctcattaaa ctccagaaac ccgcggctga gtggctcctt caacggtacc 5340 gaagcttggc cggccgttaa cacgcgtgga tccttaatta agtcgactct agagaattca 5400 ctcgagcaga ttgtcgtttc ccgccttcag tttaaactat cagtgtttga caggatatat 5460 tggcgggtaa acctaagaga aaagagcgtt tattagaata atcggatatt taaaagggcg 5520 tgaaaaggtt tatccgttcg tccatttgta tgtgcatgcc aaccacaggg tttaccggtt 5580 cctaggaaaa gaccgagcgc ctttgcgacg ctca 5614 17 7503 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1203 17 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcttcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accctactcc aagaatatca 5760 aagatacagt ctcagaagac caaagggcta ttgagacttt tcaacaaagg gtaatttcgg 5820 gaaacctcct cggattccat tgcccagcta tctgtcactt catcgaaagg acagtagaaa 5880 aggaaggtgg ctcctacaaa tgccatcatt gcgataaagg aaaggctatc attcaagatg 5940 cctctgccga cagtggtccc aaagatggac ccccacccac gaggagcatc gtggaaaaag 6000 aagacgttcc aaccacgtct tcaaagcaag tggattgatg tgacatctcc actgacgtaa 6060 gggatgacgc acaatcccac ccctactcca aaaatgtcaa agatacagtc tcagaagacc 6120 aaagggctat tgagactttt caacaaaggg taatttcggg aaacctcctc ggattccatt 6180 gcccagctat ctgtcacttc atcgaaagga cagtagaaaa ggaaggtggc tcctacaaat 6240 gccatcattg cgataaagga aaggctatca ttcaagatgc ctctgccgac agtggtccca 6300 aagatggacc cccacccacg aggagcatcg tggaaaaaga agacgttcca accacgtctt 6360 caaagcaagt ggattgatgt gacatctcca ctgacgtaag ggatgacgca caatcccact 6420 atccttcgca agacccttcc tctatataag gaagttcatt tcatttggag aggacagccc 6480 aagcttggcc ggccgttaac acgcgtggat ccttaattaa gtcgactcta gagaattcgg 6540 tacgctgaaa tcaccagtct ctctctacaa atctatctct ctctattttc tccataaata 6600 atgtgtgagt agtttcccga taagggaaat tagggttctt atagggtttc gctcatgtgt 6660 tgagcatata agaaaccctt agtatgtatt tgtatttgta aaatacttct atcaataaaa 6720 tttctaattc ctaaaaccaa aatccagtac taaaatccag atctcctaaa gtccctatag 6780 atctttgtcg tgaatataaa ccagacacga gacgactaaa cctggagccc agacgccgtt 6840 cgaagctaga agtaccgctt aggcaggagg ccgttaggga aaagatgcta aggcagggtt 6900 ggttacgttg actcccccgt aggtttggtt taaatatgat gaagtggacg gaaggaagga 6960 ggaagacaag gaaggataag gttgcaggcc ctgtgcaagg taagaagatg gaaatttgat 7020 agaggtacgc tactatactt atactatacg ctaagggaat gcttgtattt ataccctata 7080 ccccctaata accccttatc aatttaagaa ataatccgca taagcccccg cttaaaaatt 7140 ggtatcagag ccatgaatag gtctatgacc aaaactcaag aggataaaac ctcaccaaaa 7200 tacgaaagag ttcttaactc taaagataaa agatctttca agatcaaaac tagttccctc 7260 acaccggtga cggggatcgc atgcgatatc tcgagcagat tgtcgtttcc cgccttcagt 7320 ttaaactatc agtgtttgac aggatatatt ggcgggtaaa cctaagagaa aagagcgttt 7380 attagaataa tcggatattt aaaagggcgt gaaaaggttt atccgttcgt ccatttgtat 7440 gtgcatgcca accacagggt ttaccggttc ctaggaaaag accgagcgcc tttgcgacgc 7500 tca 7503 18 9390 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1204 18 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggcagttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcttcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accctactcc aagaatatca 5760 aagatacagt ctcagaagac caaagggcta ttgagacttt tcaacaaagg gtaatttcgg 5820 gaaacctcct cggattccat tgcccagcta tctgtcactt catcgaaagg acagtagaaa 5880 aggaaggtgg ctcctacaaa tgccatcatt gcgataaagg aaaggctatc attcaagatg 5940 cctctgccga cagtggtccc aaagatggac ccccacccac gaggagcatc gtggaaaaag 6000 aagacgttcc aaccacgtct tcaaagcaag tggattgatg tgacatctcc actgacgtaa 6060 gggatgacgc acaatcccac ccctactcca aaaatgtcaa agatacagtc tcagaagacc 6120 aaagggctat tgagactttt caacaaaggg taatttcggg aaacctcctc ggattccatt 6180 gcccagctat ctgtcacttc atcgaaagga cagtagaaaa ggaaggtggc tcctacaaat 6240 gccatcattg cgataaagga aaggctatca ttcaagatgc ctctgccgac agtggtccca 6300 aagatggacc cccacccacg aggagcatcg tggaaaaaga agacgttcca accacgtctt 6360 caaagcaagt ggattgatgt gacatctcca ctgacgtaag ggatgacgca caatcccact 6420 atccttcgca agacccttcc tctatataag gaagttcatt tcatttggag aggacagccc 6480 aagcttggcc ggccgttaac acgcgtggat ccttaattaa gtcgactcta ggggtggtca 6540 gtcccttatg ttacgtcctg tagaaacccc aacccgtgaa atcaaaaaac tcgacggcct 6600 gtgggcattc agtctggatc gcgaaaactg tggaattgat cagcgttggt gggaaagcgc 6660 gttacaagaa agccgggcaa ttgctgtgcc aggcagtttt aacgatcagt tcgccgatgc 6720 agatattcgt aattatgcgg gcaacgtctg gtatcagcgc gaagtcttta taccgaaagg 6780 ttgggcaggc cagcgtatcg tgctgcgttt cgatgcggtc actcattacg gcaaagtgtg 6840 ggtcaataat caggaagtga tggagcatca gggcggctat acgccatttg aagccgatgt 6900 cacgccgtat gttattgccg ggaaaagtgt acgtatcacc gtttgtgtga acaacgaact 6960 gaactggcag actatcccgc cgggaatggt gattaccgac gaaaacggca agaaaaagca 7020 gtcttacttc catgatttct ttaactatgc cggaatccat cgcagcgtaa tgctctacac 7080 cacgccgaac acctgggtgg acgatatcac cgtggtgacg catgtcgcgc aagactgtaa 7140 ccacgcgtct gttgactggc aggtggtggc caatggtgat gtcagcgttg aactgcgtga 7200 tgcggatcaa caggtggttg caactggaca aggcactagc gggactttgc aagtggtgaa 7260 tccgcacctc tggcaaccgg gtgaaggtta tctctatgaa ctgtgcgtca cagccaaaag 7320 ccagacagag tgtgatatct acccgcttcg cgtcggcatc cggtcagtgg cagtgaaggg 7380 cgaacagttc ctgattaacc acaaaccgtt ctactttact ggctttggtc gtcatgaaga 7440 tgcggacttg cgtggcaaag gattcgataa cgtgctgatg gtgcacgacc acgcattaat 7500 ggactggatt ggggccaact cctaccgtac ctcgcattac ccttacgctg aagagatgct 7560 cgactgggca gatgaacatg gcatcgtggt gattgatgaa actgctgctg tcggctttaa 7620 cctctcttta ggcattggtt tcgaagcggg caacaagccg aaagaactgt acagcgaaga 7680 ggcagtcaac ggggaaactc agcaagcgca cttacaggcg attaaagagc tgatagcgcg 7740 tgacaaaaac cacccaagcg tggtgatgtg gagtattgcc aacgaaccgg atacccgtcc 7800 gcaaggtgca cgggaatatt tcgcgccact ggcggaagca acgcgtaaac tcgacccgac 7860 gcgtccgatc acctgcgtca atgtaatgtt ctgcgacgct cacaccgata ccatcagcga 7920 tctctttgat gtgctgtgcc tgaaccgtta ttacggatgg tatgtccaaa gcggcgattt 7980 ggaaacggca gagaaggtac tggaaaaaga acttctggcc tggcaggaga aactgcatca 8040 gccgattatc atcaccgaat acggcgtgga tacgttagcc gggctgcact caatgtacac 8100 cgacatgtgg agtgaagagt atcagtgtgc atggctggat atgtatcacc gcgtctttga 8160 tcgcgtcagc gccgtcgtcg gtgaacaggt atggaatttc gccgattttg cgacctcgca 8220 aggcatattg cgcgttggcg gtaacaagaa agggatcttc actcgcgacc gcaaaccgaa 8280 gtcggcggct tttctgctgc aaaaacgctg gactggcatg aacttcggtg aaaaaccgca 8340 gcagggaggc aaacaatgaa tcaacaactc tcctggcgca ccatcgtcgg ctacagcctc 8400 gggaattgct accgctagag aattcggtac gctgaaatca ccagtctctc tctacaaatc 8460 tatctctctc tattttctcc ataaataatg tgtgagtagt ttcccgataa gggaaattag 8520 ggttcttata gggtttcgct catgtgttga gcatataaga aacccttagt atgtatttgt 8580 atttgtaaaa tacttctatc aataaaattt ctaattccta aaaccaaaat ccagtactaa 8640 aatccagatc tcctaaagtc cctatagatc tttgtcgtga atataaacca gacacgagac 8700 gactaaacct ggagcccaga cgccgttcga agctagaagt accgcttagg caggaggccg 8760 ttagggaaaa gatgctaagg cagggttggt tacgttgact cccccgtagg tttggtttaa 8820 atatgatgaa gtggacggaa ggaaggagga agacaaggaa ggataaggtt gcaggccctg 8880 tgcaaggtaa gaagatggaa atttgataga ggtacgctac tatacttata ctatacgcta 8940 agggaatgct tgtatttata ccctataccc cctaataacc ccttatcaat ttaagaaata 9000 atccgcataa gcccccgctt aaaaattggt atcagagcca tgaataggtc tatgaccaaa 9060 actcaagagg ataaaacctc accaaaatac gaaagagttc ttaactctaa agataaaaga 9120 tctttcaaga tcaaaactag ttccctcaca ccggtgacgg ggatcgcatg cgatatctcg 9180 agcagattgt cgtttcccgc cttcagttta aactatcagt gtttgacagg atatattggc 9240 gggtaaacct aagagaaaag agcgtttatt agaataatcg gatatttaaa agggcgtgaa 9300 aaggtttatc cgttcgtcca tttgtatgtg catgccaacc acagggttta ccggttccta 9360 ggaaaagacc gagcgccttt gcgacgctca 9390 19 7503 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1205 19 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accctactcc aagaatatca 5760 aagatacagt ctcagaagac caaagggcta ttgagacttt tcaacaaagg gtaatttcgg 5820 gaaacctcct cggattccat tgcccagcta tctgtcactt catcgaaagg acagtagaaa 5880 aggaaggtgg ctcctacaaa tgccatcatt gcgataaagg aaaggctatc attcaagatg 5940 cctctgccga cagtggtccc aaagatggac ccccacccac gaggagcatc gtggaaaaag 6000 aagacgttcc aaccacgtct tcaaagcaag tggattgatg tgacatctcc actgacgtaa 6060 gggatgacgc acaatcccac ccctactcca aaaatgtcaa agatacagtc tcagaagacc 6120 aaagggctat tgagactttt caacaaaggg taatttcggg aaacctcctc ggattccatt 6180 gcccagctat ctgtcacttc atcgaaagga cagtagaaaa ggaaggtggc tcctacaaat 6240 gccatcattg cgataaagga aaggctatca ttcaagatgc ctctgccgac agtggtccca 6300 aagatggacc cccacccacg aggagcatcg tggaaaaaga agacgttcca accacgtctt 6360 caaagcaagt ggattgatgt gacatctcca ctgacgtaag ggatgacgca caatcccact 6420 atccttcgca agacccttcc tctatataag gaagttcatt tcatttggag aggacagccc 6480 aagcttggcc ggccgttaac acgcgtggat ccttaattaa gtcgactcta gagaattcgg 6540 tacgctgaaa tcaccagtct ctctctacaa atctatctct ctctattttc tccataaata 6600 atgtgtgagt agtttcccga taagggaaat tagggttctt atagggtttc gctcatgtgt 6660 tgagcatata agaaaccctt agtatgtatt tgtatttgta aaatacttct atcaataaaa 6720 tttctaattc ctaaaaccaa aatccagtac taaaatccag atctcctaaa gtccctatag 6780 atctttgtcg tgaatataaa ccagacacga gacgactaaa cctggagccc agacgccgtt 6840 cgaagctaga agtaccgctt aggcaggagg ccgttaggga aaagatgcta aggcagggtt 6900 ggttacgttg actcccccgt aggtttggtt taaatatgat gaagtggacg gaaggaagga 6960 ggaagacaag gaaggataag gttgcaggcc ctgtgcaagg taagaagatg gaaatttgat 7020 agaggtacgc tactatactt atactatacg ctaagggaat gcttgtattt ataccctata 7080 ccccctaata accccttatc aatttaagaa ataatccgca taagcccccg cttaaaaatt 7140 ggtatcagag ccatgaatag gtctatgacc aaaactcaag aggataaaac ctcaccaaaa 7200 tacgaaagag ttcttaactc taaagataaa agatctttca agatcaaaac tagttccctc 7260 acaccggtga cggggatcgc atgcgatatc tcgagcagat tgtcgtttcc cgccttcagt 7320 ttaaactatc agtgtttgac aggatatatt ggcgggtaaa cctaagagaa aagagcgttt 7380 attagaataa tcggatattt aaaagggcgt gaaaaggttt atccgttcgt ccatttgtat 7440 gtgcatgcca accacagggt ttaccggttc ctaggaaaag accgagcgcc tttgcgacgc 7500 tca 7503 20 9390 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1206 20 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accctactcc aagaatatca 5760 aagatacagt ctcagaagac caaagggcta ttgagacttt tcaacaaagg gtaatttcgg 5820 gaaacctcct cggattccat tgcccagcta tctgtcactt catcgaaagg acagtagaaa 5880 aggaaggtgg ctcctacaaa tgccatcatt gcgataaagg aaaggctatc attcaagatg 5940 cctctgccga cagtggtccc aaagatggac ccccacccac gaggagcatc gtggaaaaag 6000 aagacgttcc aaccacgtct tcaaagcaag tggattgatg tgacatctcc actgacgtaa 6060 gggatgacgc acaatcccac ccctactcca aaaatgtcaa agatacagtc tcagaagacc 6120 aaagggctat tgagactttt caacaaaggg taatttcggg aaacctcctc ggattccatt 6180 gcccagctat ctgtcacttc atcgaaagga cagtagaaaa ggaaggtggc tcctacaaat 6240 gccatcattg cgataaagga aaggctatca ttcaagatgc ctctgccgac agtggtccca 6300 aagatggacc cccacccacg aggagcatcg tggaaaaaga agacgttcca accacgtctt 6360 caaagcaagt ggattgatgt gacatctcca ctgacgtaag ggatgacgca caatcccact 6420 atccttcgca agacccttcc tctatataag gaagttcatt tcatttggag aggacagccc 6480 aagcttggcc ggccgttaac acgcgtggat ccttaattaa gtcgactcta ggggtggtca 6540 gtcccttatg ttacgtcctg tagaaacccc aacccgtgaa atcaaaaaac tcgacggcct 6600 gtgggcattc agtctggatc gcgaaaactg tggaattgat cagcgttggt gggaaagcgc 6660 gttacaagaa agccgggcaa ttgctgtgcc aggcagtttt aacgatcagt tcgccgatgc 6720 agatattcgt aattatgcgg gcaacgtctg gtatcagcgc gaagtcttta taccgaaagg 6780 ttgggcaggc cagcgtatcg tgctgcgttt cgatgcggtc actcattacg gcaaagtgtg 6840 ggtcaataat caggaagtga tggagcatca gggcggctat acgccatttg aagccgatgt 6900 cacgccgtat gttattgccg ggaaaagtgt acgtatcacc gtttgtgtga acaacgaact 6960 gaactggcag actatcccgc cgggaatggt gattaccgac gaaaacggca agaaaaagca 7020 gtcttacttc catgatttct ttaactatgc cggaatccat cgcagcgtaa tgctctacac 7080 cacgccgaac acctgggtgg acgatatcac cgtggtgacg catgtcgcgc aagactgtaa 7140 ccacgcgtct gttgactggc aggtggtggc caatggtgat gtcagcgttg aactgcgtga 7200 tgcggatcaa caggtggttg caactggaca aggcactagc gggactttgc aagtggtgaa 7260 tccgcacctc tggcaaccgg gtgaaggtta tctctatgaa ctgtgcgtca cagccaaaag 7320 ccagacagag tgtgatatct acccgcttcg cgtcggcatc cggtcagtgg cagtgaaggg 7380 cgaacagttc ctgattaacc acaaaccgtt ctactttact ggctttggtc gtcatgaaga 7440 tgcggacttg cgtggcaaag gattcgataa cgtgctgatg gtgcacgacc acgcattaat 7500 ggactggatt ggggccaact cctaccgtac ctcgcattac ccttacgctg aagagatgct 7560 cgactgggca gatgaacatg gcatcgtggt gattgatgaa actgctgctg tcggctttaa 7620 cctctcttta ggcattggtt tcgaagcggg caacaagccg aaagaactgt acagcgaaga 7680 ggcagtcaac ggggaaactc agcaagcgca cttacaggcg attaaagagc tgatagcgcg 7740 tgacaaaaac cacccaagcg tggtgatgtg gagtattgcc aacgaaccgg atacccgtcc 7800 gcaaggtgca cgggaatatt tcgcgccact ggcggaagca acgcgtaaac tcgacccgac 7860 gcgtccgatc acctgcgtca atgtaatgtt ctgcgacgct cacaccgata ccatcagcga 7920 tctctttgat gtgctgtgcc tgaaccgtta ttacggatgg tatgtccaaa gcggcgattt 7980 ggaaacggca gagaaggtac tggaaaaaga acttctggcc tggcaggaga aactgcatca 8040 gccgattatc atcaccgaat acggcgtgga tacgttagcc gggctgcact caatgtacac 8100 cgacatgtgg agtgaagagt atcagtgtgc atggctggat atgtatcacc gcgtctttga 8160 tcgcgtcagc gccgtcgtcg gtgaacaggt atggaatttc gccgattttg cgacctcgca 8220 aggcatattg cgcgttggcg gtaacaagaa agggatcttc actcgcgacc gcaaaccgaa 8280 gtcggcggct tttctgctgc aaaaacgctg gactggcatg aacttcggtg aaaaaccgca 8340 gcagggaggc aaacaatgaa tcaacaactc tcctggcgca ccatcgtcgg ctacagcctc 8400 gggaattgct accgctagag aattcggtac gctgaaatca ccagtctctc tctacaaatc 8460 tatctctctc tattttctcc ataaataatg tgtgagtagt ttcccgataa gggaaattag 8520 ggttcttata gggtttcgct catgtgttga gcatataaga aacccttagt atgtatttgt 8580 atttgtaaaa tacttctatc aataaaattt ctaattccta aaaccaaaat ccagtactaa 8640 aatccagatc tcctaaagtc cctatagatc tttgtcgtga atataaacca gacacgagac 8700 gactaaacct ggagcccaga cgccgttcga agctagaagt accgcttagg caggaggccg 8760 ttagggaaaa gatgctaagg cagggttggt tacgttgact cccccgtagg tttggtttaa 8820 atatgatgaa gtggacggaa ggaaggagga agacaaggaa ggataaggtt gcaggccctg 8880 tgcaaggtaa gaagatggaa atttgataga ggtacgctac tatacttata ctatacgcta 8940 agggaatgct tgtatttata ccctataccc cctaataacc ccttatcaat ttaagaaata 9000 atccgcataa gcccccgctt aaaaattggt atcagagcca tgaataggtc tatgaccaaa 9060 actcaagagg ataaaacctc accaaaatac gaaagagttc ttaactctaa agataaaaga 9120 tctttcaaga tcaaaactag ttccctcaca ccggtgacgg ggatcgcatg cgatatctcg 9180 agcagattgt cgtttcccgc cttcagttta aactatcagt gtttgacagg atatattggc 9240 gggtaaacct aagagaaaag agcgtttatt agaataatcg gatatttaaa agggcgtgaa 9300 aaggtttatc cgttcgtcca tttgtatgtg catgccaacc acagggttta ccggttccta 9360 ggaaaagacc gagcgccttt gcgacgctca 9390 21 10003 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1210 21 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc cgaagcttgg ccggccgttc tagaactagt 4560 ggatcccccg ggtcatcaga tctcggtgac gggcaggacc ggacggggcg gtaccggcag 4620 gctgaagtcc agctgccaga aacccacgtc atgccagttc ccgtgcttga agccggccgc 4680 ccgcagcatg ccgcgggggg catatccgag cgcctcgtgc atgcgcacgc tcgggtcgtt 4740 gggcagcccg atgacagcga ccacgctctt gaagccctgt gcctccaggg acttcagcag 4800 gtgggtgtag agcgtggagc ccagtcccgt ccgctggtgg cggggggaga cgtacacggt 4860 cgactcggcc gtccagtcgt aggcgttgcg tgccttccag gggcccgcgt aggcgatgcc 4920 ggcgacctcg ccgtccacct cggcgacgag ccagggatag cgctcccgca gacggacgag 4980 gtcgtccgtc cactcctgcg gttcctgcgg ctcggtacgg aagttgaccg tgcttgtctc 5040 gatgtagtgg ttgacgatgg tgcagaccgc cggcatgtcc gcctcggtgg cacggcggat 5100 gtcggccggg cgtcgttctg ggctcatggt agatccccgg gctgcaggaa ttcgatatca 5160 agcttatcgt ctacctacaa aaaagctccg cacgaggctg catttgtcac aaatcatgaa 5220 aagaaaaact accgatgaac aatgctgagg gattcaaatt ctacccacaa aaagaagaaa 5280 gaaagatcta gcacatctaa gcctgacgaa gcagcagaaa tatataaaaa tataaaccat 5340 agtgcccttt tcccctcttc ctgatcttgt ttagcatggc ggaaatttta aaccccccat 5400 catctccccc aacaacggcg gatcgcagat ctacatccga gagccccatt ccccgcgaga 5460 tccgggccgg atccacgccg gcgagagccc cagccgcgag atcccgcccc tcccgcgcac 5520 cgatctgggc gcgcacgaag ccgcctctcg cccacccaaa ctaccaaggc caaagatcga 5580 gaccgagacg gaaaaaaaaa acggagaaag aaagaggaga ggggcggggt ggttaccggc 5640 gcggcggcgg cggaggggga ggggggagga gctcgtcgtc cggcagcgag gggggaggag 5700 gtggaggtgg tggtggtggt ggtggtaggg ttggggggat gggaggagag gggggggtat 5760 gtatatagtg gcgatggggg gcgtttcttt ggaagcggag ggagggccgg cctcgtcgct 5820 ggctcgcgat cctcctcgcg tttccggccc ccacgacccg gacccacctg ctgtttttcc 5880 ttttcctttt tttccttcct tttttttttt tgggcagcga gacgtgcggt gcgtgcggac 5940 aactcacggt gatagtgggg gggtgtggag actattgtcc agttggctgg actggggtgg 6000 gttgggttgg gttgggttgg gctgggcttg ctatggatcg tggatagcac tttgggcttt 6060 aggaacttta ggggttgttt ttgtaaatgt ttggagtcta agtttatctt ttatttttac 6120 tagaaaaaat acccatgcgc tgcaacgggg gaaagctatt ttaatcttat tattgttcat 6180 tgtgagaatt cgcctgaata tatatttttc tcaaaaatta tgtcaaatta gcatatgggt 6240 ttttttaaag atatttctta tacaaatccc tctgtattta caaaagcaaa cgaacttaaa 6300 acccgactca aatacagata tgcatttcca aaagcgaata aacttaaaaa ccaattcata 6360 caaaaatgac gtatcaaagt accgacaaaa acatcctcaa tttttataat agtagaaaag 6420 agtaaatttc actttgggcc accttttatt accgatattt tactttatac caccttttaa 6480 ctgatgtttt cacttttgac caggtaatct tacctttgtt ttattttgga ctatcccgac 6540 tctcttctca agcatatgaa tgactcgacc tgcaggcatg caagcttcag ctgctcgatc 6600 gaggtctaga acacgcgtgg atccttaatt aagtcgactc tagagaatta attcccagct 6660 ttgagtggcc gtagatttgc aaaagcaatg gctaacagac acatattctg ccaaacccca 6720 agaaggataa tcacttttct tagataaaaa agaacagacc aatatacaaa catccacact 6780 tctgcaaaca atacatcaga actaggatta cgccgattac gtggctttag cagactgtcc 6840 aaaaatctgt tttgcaaagc tccaattgct ccttgcttat ccagcttctt ttgtgttggc 6900 aaactgcgct tttccaaccg attttgttct tctcgcgctt tcttcttagg ctaaacaaac 6960 ctcaccgtgc acgcagccat ggtcctgaac cttcacctcg tccctataaa agcctagcca 7020 accttcacaa tcttatcatc acccacaaca ccgagcacca caaactagag atccccgggg 7080 atccacgcgt cttaaggcgg ccgcggtacc gggcccgtcg actctagagc ggccgccacc 7140 gcggtggagc tcctcccccc tccccctccg ccgccgccgc gccggtaacc accccgcccc 7200 tctcctcttt ctttctccgt tttttttttc cgtctcggtc tcgatctttg gccttggtag 7260 tttgggtggg cgagaggcgg cttcgtgcgc gcccagatcg gtgcgcggga ggggcgggat 7320 ctcgcggctg gggctctcgc cggcgtggat ccggcccgga tctcgcgggg aatggggctc 7380 tcggatgtag atctgcgatc cgccgttgtt gggggagatg atggggggtt taaaatttcc 7440 gccatgctaa acaagatcag gaagagggga aaagggcact atggtttata tttttatata 7500 tttctgctgc ttcgtcaggc ttagatgtgc tagatctttc tttcttcttt ttgtgggtag 7560 aatttgaatc cctcagcatt gttcatcggt agtttttctt ttcatgattt gtgacaaatg 7620 cagcctcgtg cggagctttt ttgtaggtag accatggtcc gtcctgtaga aaccccaacc 7680 cgtgaaatca aaaaactcga cggcctgtgg gcattcagtc tggatcgcga aaactgtgga 7740 attgatcagc gttggtggga aagcgcgtta caagaaagcc gggcaattgc tgtgccaggc 7800 agttttaacg atcagttcgc cgatgcagat attcgtaatt atgcgggcaa cgtctggtat 7860 cagcgcgaag tctttatacc gaaaggttgg gcaggccagc gtatcgtgct gcgtttcgat 7920 gcggtcactc attacggcaa agtgtgggtc aataatcagg aagtgatgga gcatcagggc 7980 ggctatacgc catttgaagc cgatgtcacg ccgtatgtta ttgccgggaa aagtgtacgt 8040 atcaccgttt gtgtgaacaa cgaactgaac tggcagacta tcccgccggg aatggtgatt 8100 accgacgaaa acggcaagaa aaagcagtct tacttccatg atttctttaa ctatgccgga 8160 atccatcgca gcgtaatgct ctacaccacg ccgaacacct gggtggacga tatcaccgtg 8220 gtgacgcatg tcgcgcaaga ctgtaaccac gcgtctgttg actggcaggt ggtggccaat 8280 ggtgatgtca gcgttgaact gcgtgatgcg gatcaacagg tggttgcaac tggacaaggc 8340 actagcggga ctttgcaagt ggtgaatccg cacctctggc aaccgggtga aggttatctc 8400 tatgaactgt gcgtcacagc caaaagccag acagagtgtg atatctaccc gcttcgcgtc 8460 ggcatccggt cagtggcagt gaagggccaa cagttcctga ttaaccacaa accgttctac 8520 tttactggct ttggtcgtca tgaagatgcg gacttacgtg gcaaaggatt cgataacgtg 8580 ctgatggtgc acgaccacgc attaatggac tggattgggg ccaactccta ccgtacctcg 8640 cattaccctt acgctgaaga gatgctcgac tgggcagatg aacatggcat cgtggtgatt 8700 gatgaaactg ctgctgtcgg ctttaacctc tctttaggca ttggtttcga agcgggcaac 8760 aagccgaaag aactgtacag cgaagaggca gtcaacgggg aaactcagca agcgcactta 8820 caggcgatta aagagctgat agcgcgtgac aaaaaccacc caagcgtggt gatgtggagt 8880 attgccaacg aaccggatac ccgtccgcaa gtgcacggga atatttcgcc actggcggaa 8940 gcaacgcgta aactcgaccc gacgcgtccg atcacctgcg tcaatgtaat gttctgcgac 9000 gctcacaccg ataccatcag cgatctcttt gatgtgctgt gcctgaaccg ttattacgga 9060 tggtatgtcc aaagcggcga tttggaaacg gcagagaagg tactggaaaa agaacttctg 9120 gcctggcagg agaaactgca tcagccgatt atcatcaccg aatacggcgt ggatacgtta 9180 gccgggctgc actcaatgta caccgacatg tggagtgaag agtatcagtg tgcatggctg 9240 gatatgtatc accgcgtctt tgatcgcgtc agcgccgtcg tcggtgaaca ggtatggaat 9300 ttcgccgatt ttgcgacctc gcaaggcata ttgcgcgttg gcggtaacaa gaaagggatc 9360 ttcactcgcg accgcaaacc gaagtcggcg gcttttctgc tgcaaaaacg ctggactggc 9420 atgaacttcg gtgaaaaacc gcagcaggga ggcaaacaat gaatcaacaa ctctcctggc 9480 gcaccatcgt cggctacagc ctcgggaatt tccccgatcg ttcaaacatt tggcaataaa 9540 gtttcttaag attgaatcct gttgccggtc ttgcgatgat tatcatataa tttctgttga 9600 attacgttaa gcatgtaata attaacatgt aatgcatgac gttatttatg agatgggttt 9660 ttatgattag agtcccgcaa ttatacattt aatacgcgat agaaaacaaa atatagcgcg 9720 caaactagga taaattatcg cgcgcggtgt catctatgtt actagatcgg gaattgccaa 9780 gctaattcac tcgagcagat tgtcgtttcc cgccttcagt ttaaactatc agtgtttgac 9840 aggatatatt ggcgggtaaa cctaagagaa aagagcgttt attagaataa tcggatattt 9900 aaaagggcgt gaaaaggttt atccgttcgt ccatttgtat gtgcatgcca accacagggt 9960 ttaccggttc ctaggaaaag accgagcgcc tttgcgacgc tca 10003 22 8987 DNA Artificial Sequence Description of Artificial SequencePlasmid pMRT1212 22 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc ctagaactag tggatccccc gggtcatcag 4560 atctcggtga cgggcaggac cggacggggc ggtaccggca ggctgaagtc cagctgccag 4620 aaacccacgt catgccagtt cccgtgcttg aagccggccg cccgcagcat gccgcggggg 4680 gcatatccga gcgcctcgtg catgcgcacg ctcgggtcgt tgggcagccc gatgacagcg 4740 accacgctct tgaagccctg tgcctccagg gacttcagca ggtgggtgta gagcgtggag 4800 cccagtcccg tccgctggtg gcggggggag acgtacacgg tcgactcggc cgtccagtcg 4860 taggcgttgc gtgccttcca ggggcccgcg taggcgatgc cggcgacctc gccgtccacc 4920 tcggcgacga gccagggata gcgctcccgc agacggacga ggtcgtccgt ccactcctgc 4980 ggttcctgcg gctcggtacg gaagttgacc gtgcttgtct cgatgtagtg gttgacgatg 5040 gtgcagaccg ccggcatgtc cgcctcggtg gcacggcgga tgtcggccgg gcgtcgttct 5100 gggctcatgg tagatccccg ggcccggatg cagattattt ggattgagag taaatatgag 5160 actctaattg gataccgagg ggaatttatg gaacgtcagt ggagcatttt tgacaagaaa 5220 tatttgctag ctgatagtga ccttaggcga cttttgaacg cgcaataatg gtttctgacg 5280 tatgtgctta gctcattaaa ctccagaaac ccgcggctga gtggctcctt caacggtacc 5340 ctactccaag aatatcaaag atacagtctc agaagaccaa agggctattg agacttttca 5400 acaaagggta atttcgggaa acctcctcgg attccattgc ccagctatct gtcacttcat 5460 cgaaaggaca gtagaaaagg aaggtggctc ctacaaatgc catcattgcg ataaaggaaa 5520 ggctatcatt caagatgcct ctgccgacag tggtcccaaa gatggacccc cacccacgag 5580 gagcatcgtg gaaaaagaag acgttccaac cacgtcttca aagcaagtgg attgatgtga 5640 catctccact gacgtaaggg atgacgcaca atcccacccc tactccaaaa atgtcaaaga 5700 tacagtctca gaagaccaaa gggctattga gacttttcaa caaagggtaa tttcgggaaa 5760 cctcctcgga ttccattgcc cagctatctg tcacttcatc gaaaggacag tagaaaagga 5820 aggtggctcc tacaaatgcc atcattgcga taaaggaaag gctatcattc aagatgcctc 5880 tgccgacagt ggtcccaaag atggaccccc acccacgagg agcatcgtgg aaaaagaaga 5940 cgttccaacc acgtcttcaa agcaagtgga ttgatgtgac atctccactg acgtaaggga 6000 tgacgcacaa tcccactatc cttcgcaaga cccttcctct atataaggaa gttcatttca 6060 tttggagagg acagcccaag cttggccggc cgttaacacg cgtggatcct taattaagtc 6120 gactctaggg gtggtcagtc ccttatgtta cgtcctgtag aaaccccaac ccgtgaaatc 6180 aaaaaactcg acggcctgtg ggcattcagt ctggatcgcg aaaactgtgg aattgatcag 6240 cgttggtggg aaagcgcgtt acaagaaagc cgggcaattg ctgtgccagg cagttttaac 6300 gatcagttcg ccgatgcaga tattcgtaat tatgcgggca acgtctggta tcagcgcgaa 6360 gtctttatac cgaaaggttg ggcaggccag cgtatcgtgc tgcgtttcga tgcggtcact 6420 cattacggca aagtgtgggt caataatcag gaagtgatgg agcatcaggg cggctatacg 6480 ccatttgaag ccgatgtcac gccgtatgtt attgccggga aaagtgtacg tatcaccgtt 6540 tgtgtgaaca acgaactgaa ctggcagact atcccgccgg gaatggtgat taccgacgaa 6600 aacggcaaga aaaagcagtc ttacttccat gatttcttta actatgccgg aatccatcgc 6660 agcgtaatgc tctacaccac gccgaacacc tgggtggacg atatcaccgt ggtgacgcat 6720 gtcgcgcaag actgtaacca cgcgtctgtt gactggcagg tggtggccaa tggtgatgtc 6780 agcgttgaac tgcgtgatgc ggatcaacag gtggttgcaa ctggacaagg cactagcggg 6840 actttgcaag tggtgaatcc gcacctctgg caaccgggtg aaggttatct ctatgaactg 6900 tgcgtcacag ccaaaagcca gacagagtgt gatatctacc cgcttcgcgt cggcatccgg 6960 tcagtggcag tgaagggcga acagttcctg attaaccaca aaccgttcta ctttactggc 7020 tttggtcgtc atgaagatgc ggacttgcgt ggcaaaggat tcgataacgt gctgatggtg 7080 cacgaccacg cattaatgga ctggattggg gccaactcct accgtacctc gcattaccct 7140 tacgctgaag agatgctcga ctgggcagat gaacatggca tcgtggtgat tgatgaaact 7200 gctgctgtcg gctttaacct ctctttaggc attggtttcg aagcgggcaa caagccgaaa 7260 gaactgtaca gcgaagaggc agtcaacggg gaaactcagc aagcgcactt acaggcgatt 7320 aaagagctga tagcgcgtga caaaaaccac ccaagcgtgg tgatgtggag tattgccaac 7380 gaaccggata cccgtccgca aggtgcacgg gaatatttcg cgccactggc ggaagcaacg 7440 cgtaaactcg acccgacgcg tccgatcacc tgcgtcaatg taatgttctg cgacgctcac 7500 accgatacca tcagcgatct ctttgatgtg ctgtgcctga accgttatta cggatggtat 7560 gtccaaagcg gcgatttgga aacggcagag aaggtactgg aaaaagaact tctggcctgg 7620 caggagaaac tgcatcagcc gattatcatc accgaatacg gcgtggatac gttagccggg 7680 ctgcactcaa tgtacaccga catgtggagt gaagagtatc agtgtgcatg gctggatatg 7740 tatcaccgcg tctttgatcg cgtcagcgcc gtcgtcggtg aacaggtatg gaatttcgcc 7800 gattttgcga cctcgcaagg catattgcgc gttggcggta acaagaaagg gatcttcact 7860 cgcgaccgca aaccgaagtc ggcggctttt ctgctgcaaa aacgctggac tggcatgaac 7920 ttcggtgaaa aaccgcagca gggaggcaaa caatgaatca acaactctcc tggcgcacca 7980 tcgtcggcta cagcctcggg aattgctacc gctagagaat tcggtacgct gaaatcacca 8040 gtctctctct acaaatctat ctctctctat tttctccata aataatgtgt gagtagtttc 8100 ccgataaggg aaattagggt tcttataggg tttcgctcat gtgttgagca tataagaaac 8160 ccttagtatg tatttgtatt tgtaaaatac ttctatcaat aaaatttcta attcctaaaa 8220 ccaaaatcca gtactaaaat ccagatctcc taaagtccct atagatcttt gtcgtgaata 8280 taaaccagac acgagacgac taaacctgga gcccagacgc cgttcgaagc tagaagtacc 8340 gcttaggcag gaggccgtta gggaaaagat gctaaggcag ggttggttac gttgactccc 8400 ccgtaggttt ggtttaaata tgatgaagtg gacggaagga aggaggaaga caaggaagga 8460 taaggttgca ggccctgtgc aaggtaagaa gatggaaatt tgatagaggt acgctactat 8520 acttatacta tacgctaagg gaatgcttgt atttataccc tataccccct aataacccct 8580 tatcaattta agaaataatc cgcataagcc cccgcttaaa aattggtatc agagccatga 8640 ataggtctat gaccaaaact caagaggata aaacctcacc aaaatacgaa agagttctta 8700 actctaaaga taaaagatct ttcaagatca aaactagttc cctcacaccg gtgacgggga 8760 tcgcatgcga tatctcgagc agattgtcgt ttcccgcctt cagtttaaac tatcagtgtt 8820 tgacaggata tattggcggg taaacctaag agaaaagagc gtttattaga ataatcggat 8880 atttaaaagg gcgtgaaaag gtttatccgt tcgtccattt gtatgtgcat gccaaccaca 8940 gggtttaccg gttcctagga aaagaccgag cgcctttgcg acgctca 8987 23 28 DNA Artificial Sequence Description of Artificial SequenceOligo desoxynucleotide containing AvrII restriction site 23 aacctaggaa aagaccgagc gcctttgc 28 24 43 DNA Artificial Sequence Description of Artificial SequenceOligo Desoxynucloetide containing StuI restriction site 24 cggattaatg gtagaaggcc tttcacggga gggttcgaga agg 43 25 43 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing StuI restriction site 25 tgaaaggcct tctaccatta atccgcgata aacccagcga acc 43 26 52 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing BstXI restriction site 26 atgcatccaa aattttggta gaatttacaa gctataaggt tattgtcctg gg 52 27 29 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide situated upstream of NdeI restriction site 27 atcgacgagg aaatcgtcgt gctgtttgc 29 28 30 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing AvrII restriction site 28 aaacctagga aatgccagta aagcgctggc 30 29 38 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing AvrII and AatII restriction sites 29 ttcctaggtt gacgtcttct gatgggctgc ctgtatcg 38 30 47 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing SmaI restriction site 30 cctatggata tcccccgggg gatagcccca gtacattaaa aacgtcc 47 31 48 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing restriction site SmaI 31 ctatcccccg ggggatatcc ataggcccga tctagtaaca tagatgac 48 32 47 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing Bsp120I restriction site 32 gcgcacttgg gcccatagct cgacgaacga tcgttcaaac atttggc 47 33 47 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing Bsp120I restriction site 33 ttcgtcgagc tatgggccca agtgcgcatc ccgtgggcga agaactc 47 34 25 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide downstream of a BstBI restriction site 34 ttcttgacga gttcttctga gcggg 25 35 47 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing restriction sites KpnI, HindIII, EcoRI and XhoI 35 cggtaccgaa gctttgaatt cactcgagca gattgtcgtt tcccgcc 47 36 36 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing restriction sites AvrII and AgeI 36 tatcctagga accggtaaac cctgtggttg gcatgc 36 37 29 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide used for synthesis of fragment “MCS-beg. Pnos” 37 atatgagact ctaattggat accgagggg 29 38 49 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing XhoI, EcoRI, HindIII et KpnI restriction sites 38 gctcgagtga attcaaagct tcggtaccgt tgaaggagcc actcagccg 49 39 25 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide for synthesis of part of npt II and BspEI site 39 ggaatcgaaa tctcgtgatg gcagg 25 40 24 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide used for synthesis of part of Pnos and npt II 40 attattgcgc gttcaaaagt cgcc 24 41 52 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide used in the synthesis of XbaI, SalI, PacI, BamHI, MluI, HpaI et FseI restriction sites of an MCS 41 agcttggccg gccgttaaca cgcgtggatc cttaattaag tcgactctag ag 52 42 52 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide used in the synthesis of XbaI, SalI, PacI, BamHI, MluI, HpaI et FseI restriction sites of an MCS 42 aattctctag agtcgactta attaaggatc cacgcgtgtt aacggccggc ca 52 43 30 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing BspEI restriction site 43 taatctgcat ccggatctgg atcgtttcgc 30 44 30 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing BspEI restriction site 44 acgatccaga tccggatgca gattatttgg 30 45 30 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing BglII restriction site 45 atgggtcacg acgagatctt cgccgtcggg 30 46 19 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing BstBI restriction site 46 aggcattggt ttcgaagcg 19 47 21 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide used for synthesis of plasmid pUC19-uidA-Tnos delta EcoRI 47 tacgccaagc ttggcaattc c 21 48 29 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide containing NcoI and SmaI restriction sites 48 aatacccggg accatggtcc gtcctgtag 29 49 24 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide situated upstream of SnaBI restriction site 49 atagtctgcc agttcagttc gttg 24 50 9688 DNA Artificial Sequence Description of Artificial SequencepMRT1334 50 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cggggatcat ccgggtctgt ggcgggaact ccacgaaaat atccgaacgc 4560 agcaagatat cgcggtgcat ctcggtcttg cctgggcagt cgccgccgac gccgttgatg 4620 tggacgccgg gcccgatcat attgtcgctc aggatcgtgg cgttgtgctt gtcggccgtt 4680 gctgtcgtaa tgatatcggc accttcgacc gcctgttccg cagagatccc gtgggcgaag 4740 aactccagca tgagatcccc gcgctggagg atcatccagc cggcgtcccg gaaaacgatt 4800 ccgaagccca acctttcata gaaggcggcg gtggaatcga aatctcgtga tggcaggttg 4860 ggcgtcgctt ggtcggtcat ttcgaacccc agagtcccgc tcagaagaac tcgtcaagaa 4920 ggcgatagaa ggcgatgcgc tgcgaatcgg gagcggcgat accgtaaagc acgaggaagc 4980 ggtcagccca ttcgccgcca agctcttcag caatatcacg ggtagccaac gctatgtcct 5040 gatagcggtc cgccacaccc agccggccac agtcgatgaa tccagaaaag cggccatttt 5100 ccaccatgat attcggcaag caggcatcgc catgggtcac gacgagatca tcgccgtcgg 5160 gcatgcgcgc cttgagcctg gcgaacagtt cggctggcgc gagcccctga tgctcttcgt 5220 ccagatcatc ctgatcgaca agaccggctt ccatccgagt acgtgctcgc tcgatgcgat 5280 gtttcgcttg gtggtcgaat gggcaggtag ccggatcaag cgtatgcagc cgccgcattg 5340 catcagccat gatggatact ttctcggcag gagcaaggtg agatgacagg agatcctgcc 5400 ccggcacttc gcccaatagc agccagtccc ttcccgcttc agtgacaacg tcgagcacag 5460 ctgcgcaagg aacgcccgtc gtggccagcc acgatagccg cgctgcctcg tcctgcagtt 5520 cattcagggc accggacagg tcggtcttga caaaaagaac cgggcgcccc tgcgctgaca 5580 gccggaacac ggcggcatca gagcagccga ttgtctgttg tgcccagtca tagccgaata 5640 gcctctccac ccaagcggcc ggagaacctg cgtgcaatcc atcttgttca atcatgcgaa 5700 acgatccaga tccggtgcag attatttgga ttgagagtga atatgagact ctaattggat 5760 accgagggga atttatggaa cgtcagtgga gcatttttga caagaaatat ttgctagctg 5820 atagtgacct taggcgactt ttgaacgcgc aataatggtt tctgacgtat gtgcttagct 5880 cattaaactc cagaaacccg cggctgagtg gctccttcaa cgttgcggtt ctgtcagttc 5940 caaacgtaaa acggcttgtc ccgcgtcatc ggcgggggtc ataacgtgac tcccttaatt 6000 ctccgctcat gatcagattg tcgtttcccg ccttcagttt cctactccaa gaatatcaaa 6060 gatacagtct cagaagacca aagggctatt gagacttttc aacaaagggt aatttcggga 6120 aacctcctcg gattccattg cccagctatc tgtcacttca tcgaaaggac agtagaaaag 6180 gaaggtggct cctacaaatg ccatcattgc gataaaggaa aggctatcat tcaagatgcc 6240 tctgccgaca gtggtcccaa agatggaccc ccacccacga ggagcatcgt ggaaaaagaa 6300 gacgttccaa ccacgtcttc aaagcaagtg gattgatgtg acatctccac tgacgtaagg 6360 gatgacgcac aatcccaccc ctactccaaa aatgtcaaag atacagtctc agaagaccaa 6420 agggctattg agacttttca acaaagggta atttcgggaa acctcctcgg attccattgc 6480 ccagctatct gtcacttcat cgaaaggaca gtagaaaagg aaggtggctc ctacaaatgc 6540 catcattgcg ataaaggaaa ggctatcatt caagatgcct ctgccgacag tggtcccaaa 6600 gatggacccc cacccacgag gagcatcgtg gaaaaagaag acgttccaac cacgtcttca 6660 aagcaagtgg attgatgtga catctccact gacgtaaggg atgacgcaca atcccactat 6720 ccttcgcaag acccttcctc tatataagga agttcatttc atttggagag gacagcccaa 6780 gcttggccgg ccgttaacac gcgtggatcc ttaattaagt cgactctagg ggtggtcagt 6840 cccttatgtt acgtcctgta gaaaccccaa cccgtgaaat caaaaaactc gacggcctgt 6900 gggcattcag tctggatcgc gaaaactgtg gaattgatca gcgttggtgg gaaagcgcgt 6960 tacaagaaag ccgggcaatt gctgtgccag gcagttttaa cgatcagttc gccgatgcag 7020 atattcgtaa ttatgcgggc aacgtctggt atcagcgcga agtctttata ccgaaaggtt 7080 gggcaggcca gcgtatcgtg ctgcgtttcg atgcggtcac tcattacggc aaagtgtggg 7140 tcaataatca ggaagtgatg gagcatcagg gcggctatac gccatttgaa gccgatgtca 7200 cgccgtatgt tattgccggg aaaagtgtac gtatcaccgt ttgtgtgaac aacgaactga 7260 actggcagac tatcccgccg ggaatggtga ttaccgacga aaacggcaag aaaaagcagt 7320 cttacttcca tgatttcttt aactatgccg gaatccatcg cagcgtaatg ctctacacca 7380 cgccgaacac ctgggtggac gatatcaccg tggtgacgca tgtcgcgcaa gactgtaacc 7440 acgcgtctgt tgactggcag gtggtggcca atggtgatgt cagcgttgaa ctgcgtgatg 7500 cggatcaaca ggtggttgca actggacaag gcactagcgg gactttgcaa gtggtgaatc 7560 cgcacctctg gcaaccgggt gaaggttatc tctatgaact gtgcgtcaca gccaaaagcc 7620 agacagagtg tgatatctac ccgcttcgcg tcggcatccg gtcagtggca gtgaagggcg 7680 aacagttcct gattaaccac aaaccgttct actttactgg ctttggtcgt catgaagatg 7740 cggacttgcg tggcaaagga ttcgataacg tgctgatggt gcacgaccac gcattaatgg 7800 actggattgg ggccaactcc taccgtacct cgcattaccc ttacgctgaa gagatgctcg 7860 actgggcaga tgaacatggc atcgtggtga ttgatgaaac tgctgctgtc ggctttaacc 7920 tctctttagg cattggtttc gaagcgggca acaagccgaa agaactgtac agcgaagagg 7980 cagtcaacgg ggaaactcag caagcgcact tacaggcgat taaagagctg atagcgcgtg 8040 acaaaaacca cccaagcgtg gtgatgtgga gtattgccaa cgaaccggat acccgtccgc 8100 aaggtgcacg ggaatatttc gcgccactgg cggaagcaac gcgtaaactc gacccgacgc 8160 gtccgatcac ctgcgtcaat gtaatgttct gcgacgctca caccgatacc atcagcgatc 8220 tctttgatgt gctgtgcctg aaccgttatt acggatggta tgtccaaagc ggcgatttgg 8280 aaacggcaga gaaggtactg gaaaaagaac ttctggcctg gcaggagaaa ctgcatcagc 8340 cgattatcat caccgaatac ggcgtggata cgttagccgg gctgcactca atgtacaccg 8400 acatgtggag tgaagagtat cagtgtgcat ggctggatat gtatcaccgc gtctttgatc 8460 gcgtcagcgc cgtcgtcggt gaacaggtat ggaatttcgc cgattttgcg acctcgcaag 8520 gcatattgcg cgttggcggt aacaagaaag ggatcttcac tcgcgaccgc aaaccgaagt 8580 cggcggcttt tctgctgcaa aaacgctgga ctggcatgaa cttcggtgaa aaaccgcagc 8640 agggaggcaa acaatgaatc aacaactctc ctggcgcacc atcgtcggct acagcctcgg 8700 gaattgctac cgctagagaa ttcggtacgc tgaaatcacc agtctctctc tacaaatcta 8760 tctctctcta ttttctccat aaataatgtg tgagtagttt cccgataagg gaaattaggg 8820 ttcttatagg gtttcgctca tgtgttgagc atataagaaa cccttagtat gtatttgtat 8880 ttgtaaaata cttctatcaa taaaatttct aattcctaaa accaaaatcc agtactaaaa 8940 tccagatctc ctaaagtccc tatagatctt tgtcgtgaat ataaaccaga cacgagacga 9000 ctaaacctgg agcccagacg ccgttcgaag ctagaagtac cgcttaggca ggaggccgtt 9060 agggaaaaga tgctaaggca gggttggtta cgttgactcc cccgtaggtt tggtttaaat 9120 atgatgaagt ggacggaagg aaggaggaag acaaggaagg ataaggttgc aggccctgtg 9180 caaggtaaga agatggaaat ttgatagagg tacgctacta tacttatact atacgctaag 9240 ggaatgcttg tatttatacc ctataccccc taataacccc ttatcaattt aagaaataat 9300 ccgcataagc ccccgcttaa aaattggtat cagagccatg aataggtcta tgaccaaaac 9360 tcaagaggat aaaacctcac caaaatacga aagagttctt aactctaaag ataaaagatc 9420 tttcaagatc aaaactagtt ccctcacacc ggtgacgggg atcgcatgcg atatctcgag 9480 cagattgtcg tttcccgcct tcagtttaaa ctatcagtgt ttgacaggat atattggcgg 9540 gtaaacctaa gagaaaagag cgtttattag aataatcgga tatttaaaag ggcgtgaaaa 9600 ggtttatccg ttcgtccatt tgtatgtgca tgccaaccac agggtttacc ggttcctagg 9660 aaaagaccga gcgcctttgc gacgctca 9688 51 15208 DNA Artificial Sequence Description of Artificial SequencepMRT1335 51 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggcc cgctaacgcg ggcctcccat ccccccaggg gctgcgcccc 660 tcggccgcga acggcctcac cccaaaaatg gcagcgctgg cagtccttgc cattgccggg 720 atcggggcag taacgggatg ggcgatcagc ccgagcgcga cgcccggaag cattgacgtg 780 ccgcaggtgc tggcatcgac attcagcgac caggtgccgg gcagtgaggg cggcggcctg 840 ggtggcggcc tgcccttcac ttcggccgtc ggggcattca cggacttcat ggcggggccg 900 gcaattttta ccttgggcat tcttggcata gtggtcgcgg gtgccgtgct cgtgttcggg 960 ggtgcgataa acccagcgaa ccatttgagg tgataggtaa gattataccg aggtatgaaa 1020 acgagaattg gacctttaca gaattactct atgaagcgcc atatttaaaa agctaccaag 1080 acgaagagga tgaagaggat gaggaggcag attgccttga atatattgac aatactgata 1140 agataatata tcttttatat agaagatatc gccgtatgta aggatttcag ggggcaaggc 1200 ataggcagcg cgcttatcaa tatatctata gaatgggcaa agcataaaaa cttgcatgga 1260 ctaatgcttg aaacccagga caataacctt atagcttgta aattctatca taattgggta 1320 atgactccaa cttattgata gtgttttatg ttcagataat gcccgatgac tttgtcatgc 1380 agctccaccg attttgagaa cgacagcgac ttccgtccca gccgtgccag gtgctgcctc 1440 agattcaggt tatgccgctc aattcgctgc gtatatcgct tgctgattac gtgcagcttt 1500 cccttcaggc gggattcata cagcggccag ccatccgtca tccatatcac cacgtcaaag 1560 ggtgacagca ggctcataag acgccccagc gtcgccatag tgcgttcacc gaatacgtgc 1620 gcaacaaccg tcttccggag actgtcatac gcgtaaaaca gccagcgctg gcgcgattta 1680 gccccgacat agccccactg ttcgtccatt tccgcgcaga cgatgacgtc actgcccggc 1740 tgtatgcgcg aggttaccga ctgcggcctg agttttttaa gtgacgtaaa atcgtgttga 1800 ggccaacgcc cataatgcgg gctgttgccc ggcatccaac gccattcatg gccatatcaa 1860 tgattttctg gtgcgtaccg ggttgagaag cggtgtaagt gaactgcagt tgccatgttt 1920 tacggcagtg agagcagaga tagcgctgat gtccggcggt gcttttgccg ttacgcacca 1980 ccccgtcagt agctgaacag gagggacagc tgatagacac agaagccact ggagcacctc 2040 aaaaacacca tcatacacta aatcagtaag ttggcagcat cacccataat tgtggtttca 2100 aaatcggctc cgtcgatact atgttatacg ccaactttga aaacaacttt gaaaaagctg 2160 ttttctggta tttaaggttt tagaatgcaa ggaacagtga attggagttc gtcttgttat 2220 aattagcttc ttggggtatc tttaaatact gtagaaaaga ggaaggaaat aataaatggc 2280 taaaatgaga atatcaccgg aattgaaaaa actgatcgaa aaataccgct gcgtaaaaga 2340 tacggaagga atgtctcctg ctaaggtata taagctggtg ggagaaaatg aaaacctata 2400 tttaaaaatg acggacagcc ggtataaagg gaccacctat gatgtggaac gggaaaagga 2460 catgatgcta tggctggaag gaaagctgcc tgttccaaag gtcctgcact ttgaacggca 2520 tgatggctgg agcaatctgc tcatgagtga ggccgatggc gtcctttgct cggaagagta 2580 tgaagatgaa caaagccctg aaaagattat cgagctgtat gcggagtgca tcaggctctt 2640 tcactccatc gacatatcgg attgtcccta tacgaatagc ttagacagcc gcttagccga 2700 attggattac ttactgaata acgatctggc cgatgtggat tgcgaaaact gggaagaaga 2760 cactccattt aaagatccgc gcgagctgta tgatttttta aagacggaaa agcccgaaga 2820 ggaacttgtc ttttcccacg gcgacctggg agacagcaac atctttgtga aagatggcaa 2880 agtaagtggc tttattgatc ttgggagaag cggcagggcg gacaagtggt atgacattgc 2940 cttctgcgtc cggtcgatca gggaggatat cggggaagaa cagtatgtcg agctattttt 3000 tgacttactg gggatcaagc ctgattggga gaaaataaaa tattatattt tactggatga 3060 attgttttag tacctagatg tggcgcaacg atgccggcga caagcaggag cgcaccgact 3120 tcttccgcat caagtgtttt ggctctcagg ccgaggccca cggcaagtat ttgggcaagg 3180 ggtcgctggt attcgtgcag ggcaagattc ggaataccaa gtacgagaag gacggccaga 3240 cggtctacgg gaccgacttc attgccgata aggtggatta tctggacacc aaggcaccag 3300 gcgggtcaaa tcaggaataa gggcacattg ccccggcgtg agtcggggca atcccgcaag 3360 gagggtgaat gaatcggacg tttgaccgga aggcatacag gcaagaactg atcgacgcgg 3420 ggttttccgc cgaggatgcc gaaaccatcg caagccgcac cgtcatgcgt gcgccccgcg 3480 aaaccttcca gtccgtcggc tcgatggtcc agcaagctac ggccaagatc gagcgcgaca 3540 gcgtgcaact ggctccccct gccctgcccg cgccatcggc cgccgtggag cgttcgcgtc 3600 gtctcgaaca ggaggcggca ggtttggcga agtcgatgac catcgacacg cgaggaacta 3660 tgacgaccaa gaagcgaaaa accgccggcg aggacctggc aaaacaggtc agcgaggcca 3720 agcaggccgc gttgctgaaa cacacgaagc agcagatcaa ggaaatgcag ctttccttgt 3780 tcgatattgc gccgtggccg gacacgatgc gagcgatgcc aaacgacacg gcccgctctg 3840 ccctgttcac cacgcgcaac aagaaaatcc cgcgcgaggc gctgcaaaac aaggtcattt 3900 tccacgtcaa caaggacgtg aagatcacct acaccggcgt cgagctgcgg gccgacgatg 3960 acgaactggt gtggcagcag gtgttggagt acgcgaagcg cacccctatc ggcgagccga 4020 tcaccttcac gttctacgag ctttgccagg acctgggctg gtcgatcaat ggccggtatt 4080 acacgaaggc cgaggaatgc ctgtcgcgcc tacaggcgac ggcgatgggc ttcacgtccg 4140 accgcgttgg gcacctggaa tcggtgtcgc tgctgcaccg cttccgcgtc ctggaccgtg 4200 gcaagaaaac gtcccgttgc caggtcctga tcgacgagga aatcgtcgtg ctgtttgctg 4260 gcgaccacta cacgaaattc atatgggaga agtaccgcaa gctgtcgccg acggcccgac 4320 ggatgttcga ctatttcagc tcgcaccggg agccgtaccc gctcaagctg gaaaccttcc 4380 gcctcatgtg cggatcggat tccacccgcg tgaagaagtg gcgcgagcag gtcggcgaag 4440 cctgcgaaga gttgcgaggc agcggcctgg tggaacacgc ctgggtcaat gatgacctgg 4500 tgcattgcaa acgctagggc cttgtggggt cagttccggc tgggggttca gcagccagcg 4560 ctttactggc atttcaggaa caagcgggca ctgctcgacg cacttgcttc gctcagtatc 4620 gctcgggacg cacggcgcgc tctacgaact gccgataaac agaggattaa aattgacaat 4680 tgtgattaag gctcagattc gacggcttgg agcggccgac gtgcaggatt tccgcgagat 4740 ccgattgtcg gccctgaaga aagctccaga gatgttcggg tccgtttacg agcacgagga 4800 gaaaaagccc atggaggcgt tcgctgaacg gttgcgagat gccgtggcat tcggcgccta 4860 catcgacggc gagatcattg ggctgtcggt cttcaaacag gaggacggcc ccaaggacgc 4920 tcacaaggcg catctgtccg gcgttttcgt ggagcccgaa cagcgaggcc gaggggtcgc 4980 cggtatgctg ctgcgggcgt tgccggcggg tttattgctc gtgatgatcg tccgacagat 5040 tccaacggga atctggtgga tgcgcatctt catcctcggc gcacttaata tttcgctatt 5100 ctggagcttg ttgtttattt cggtctaccg cctgccgggc ggggtcgcgg cgacggtagg 5160 cgctgtgcag ccgctgatgg tcgtgttcat ctctgccgct ctgctaggta gcccgatacg 5220 attgatggcg gtcctggggg ctatttgcgg aactgcgggc gtggcgctgt tggtgttgac 5280 accaaacgca gcgctagatc ctgtcggcgt cgcagcgggc ctggcggggg cggtttccat 5340 ggcgttcgga accgtgctga cccgcaagtg gcaacctccc gtgcctctgc tcacctttac 5400 cgcctggcaa ctggcggccg gaggacttct gctcgttcca gtagctttag tgtttgatcc 5460 gccaatcccg atgcctacag gaaccaatgt tctcggcctg gcgtggctcg gcctgatcgg 5520 agcgggttta acctacttcc tttggttccg ggggatctcg cgactcgaac ctacagttgt 5580 ttccttactg ggctttctca gccccagatc tggggtcgat cagccgggga tgcatcaggc 5640 cgacagtcgg aacttcgggt ccccgacctg taccattcgg tgagcaatgg ataggggagt 5700 tgatatcgtc aacgttcact tctaaagaaa tagcgccact cagcttcctc agcggcttta 5760 tccagcgatt tcctattatg tcggcatagt tctcaagatc gacagcctgt cacggttaag 5820 cgagaaatga ataagaaggc tgataattcg gatctctgcg agggagatga tatttgatca 5880 caggcagcaa cgctctgtca tcgttacaat caacatgcta ccctccgcga gatcatccgt 5940 gtttcaaacc cggcagctta gttgccgttc ttccgaatag catcggtaac atgagcaaag 6000 tctgccgcct tacaacggct ctcccgctga cgccgtcccg gactgatggg ctgcctgtat 6060 cgagtggtga ttttgtgccg agctgccggt cggggagctg ttggctggct ggtggcagga 6120 tatattgtgg tgtaaacaaa ttgacgctta gacaacttaa taacacattg cggacgtttt 6180 taatgtactg gggtggtttt tcttttcacc agtgagacgg gcaacagctg attgcccttc 6240 accgcctggc cctgagagag ttgcagcaag cggtccacgc tggtttgccc cagcaggcga 6300 aaatcctgtt tgatggtggt tccgaaatcg gcaaaatccc ttataaatca aaagaatagc 6360 ccgagatagg gttgagtgtt gttccagttt ggaacaagag tccactatta aagaacgtgg 6420 actccaacgt caaagggcga aaaaccgtct atcagggcga tggcccacta cgtgaaccat 6480 cacccaaatc aagttttttg gggtcgaggt gccgtaaagc actaaatcgg aaccctaaag 6540 ggagcccccg atttagagct tgacggggaa agccggcgaa cgtggcgaga aaggaaggga 6600 agaaagcgaa aggagcgggc gccattcagg ctgcgcaact gttgggaagg gcgatcggtg 6660 cgggcctctt cgctattacg ccagctggcg aaagggggat gtgctgcaag gcgattaagt 6720 tgggtaacgc cagggttttc ccagtcacga cgttgtaaaa cgacggccag tgaatttcga 6780 gatatcgcat gcgatccccg tcaccggtgt gagggaacta gttttgatct tgaaagatct 6840 tttatcttta gagttaagaa ctctttcgta ttttggtgag gttttatcct cttgagtttt 6900 ggtcatagac ctattcatgg ctctgatacc aatttttaag cgggggctta tgcggattat 6960 ttcttaaatt gataaggggt tattaggggg tatagggtat aaatacaagc attcccttag 7020 cgtatagtat aagtatagta gcgtacctct atcaaatttc catcttctta ccttgcacag 7080 ggcctgcaac cttatccttc cttgtcttcc tccttccttc cgtccacttc atcatattta 7140 aaccaaacct acgggggagt caacgtaacc aaccctgcct tagcatcttt tccctaacgg 7200 cctcctgcct aagcggtact tctagcttcg aacggcgtct gggctccagg tttagtcgtc 7260 tcgtgtctgg tttatattca cgacaaagat ctatagggac tttaggagat ctggatttta 7320 gtactggatt ttggttttag gaattagaaa ttttattgat agaagtattt tacaaataca 7380 aatacatact aagggtttct tatatgctca acacatgagc gaaaccctat aagaacccta 7440 atttccctta tcgggaaact actcacacat tatttatgga gaaaatagag agagatagat 7500 ttgtagagag agactggtga tttcagcgta ccgaattctc tagcggtagc aattcccgag 7560 gctgtagccg acgatggtgc gccaggagag ttgttgattc attgtttgcc tccctgctgc 7620 ggtttttcac cgaagttcat gccagtccag cgtttttgca gcagaaaagc cgccgacttc 7680 ggtttgcggt cgcgagtgaa gatccctttc ttgttaccgc caacgcgcaa tatgccttgc 7740 gaggtcgcaa aatcggcgaa attccatacc tgttcaccga cgacggcgct gacgcgatca 7800 aagacgcggt gatacatatc cagccatgca cactgatact cttcactcca catgtcggtg 7860 tacattgagt gcagcccggc taacgtatcc acgccgtatt cggtgatgat aatcggctga 7920 tgcagtttct cctgccaggc cagaagttct ttttccagta ccttctctgc cgtttccaaa 7980 tcgccgcttt ggacatacca tccgtaataa cggttcaggc acagcacatc aaagagatcg 8040 ctgatggtat cggtgtgagc gtcgcagaac attacattga cgcaggtgat cggacgcgtc 8100 gggtcgagtt tacgcgttgc ttccgccagt ggcgcgaaat attcccgtgc accttgcgga 8160 cgggtatccg gttcgttggc aatactccac atcaccacgc ttgggtggtt tttgtcacgc 8220 gctatcagct ctttaatcgc ctgtaagtgc gcttgctgag tttccccgtt gactgcctct 8280 tcgctgtaca gttctttcgg cttgttgccc gcttcgaaac caatgcctaa agagaggtta 8340 aagccgacag cagcagtttc atcaatcacc acgatgccat gttcatctgc ccagtcgagc 8400 atctcttcag cgtaagggta atgcgaggta cggtaggagt tggccccaat ccagtccatt 8460 aatgcgtggt cgtgcaccat cagcacgtta tcgaatcctt tgccacgcaa gtccgcatct 8520 tcatgacgac caaagccagt aaagtagaac ggtttgtggt taatcaggaa ctgttcgccc 8580 ttcactgcca ctgaccggat gccgacgcga agcgggtaga tatcacactc tgtctggctt 8640 ttggctgtga cgcacagttc atagagataa ccttcacccg gttgccagag gtgcggattc 8700 accacttgca aagtcccgct agtgccttgt ccagttgcaa ccacctgttg atccgcatca 8760 cgcagttcaa cgctgacatc accattggcc accacctgcc agtcaacaga cgcgtggtta 8820 cagtcttgcg cgacatgcgt caccacggtg atatcgtcca cccaggtgtt cggcgtggtg 8880 tagagcatta cgctgcgatg gattccggca tagttaaaga aatcatggaa gtaagactgc 8940 tttttcttgc cgttttcgtc ggtaatcacc attcccggcg ggatagtctg ccagttcagt 9000 tcgttgttca cacaaacggt gatacgtaca cttttcccgg caataacata cggcgtgaca 9060 tcggcttcaa atggcgtata gccgccctga tgctccatca cttcctgatt attgacccac 9120 actttgccgt aatgagtgac cgcatcgaaa cgcagcacga tacgctggcc tgcccaacct 9180 ttcggtataa agacttcgcg ctgataccag acgttgcccg cataattacg aatatctgca 9240 tcggcgaact gatcgttaaa actgcctggc acagcaattg cccggctttc ttgtaacgcg 9300 ctttcccacc aacgctgatc aattccacag ttttcgcgat ccagactgaa tgcccacagg 9360 ccgtcgagtt ttttgatttc acgggttggg gtttctacag gacgtaacat aagggactga 9420 ccacccctag agtcgactta attaaggatc cacgcgtgtt aacggccggc caagcttggg 9480 ctgtcctctc caaatgaaat gaacttcctt atatagagga agggtcttgc gaaggatagt 9540 gggattgtgc gtcatccctt acgtcagtgg agatgtcaca tcaatccact tgctttgaag 9600 acgtggttgg aacgtcttct ttttccacga tgctcctcgt gggtgggggt ccatctttgg 9660 gaccactgtc ggcagaggca tcttgaatga tagcctttcc tttatcgcaa tgatggcatt 9720 tgtaggagcc accttccttt tctactgtcc tttcgatgaa gtgacagata gctgggcaat 9780 ggaatccgag gaggtttccc gaaattaccc tttgttgaaa agtctcaata gccctttggt 9840 cttctgagac tgtatctttg acatttttgg agtaggggtg ggattgtgcg tcatccctta 9900 cgtcagtgga gatgtcacat caatccactt gctttgaaga cgtggttgga acgtcttctt 9960 tttccacgat gctcctcgtg ggtgggggtc catctttggg accactgtcg gcagaggcat 10020 cttgaatgat agcctttcct ttatcgcaat gatggcattt gtaggagcca ccttcctttt 10080 ctactgtcct ttcgatgaag tgacagatag ctgggcaatg gaatccgagg aggtttcccg 10140 aaattaccct ttgttgaaaa gtctcaatag ccctttggtc ttctgagact gtatctttga 10200 tattcttgga gtagggtacc cggggatcct ctagagtcga cctgcaggca tgcaagcttg 10260 gcgtaatcat ggtcatagct gtttcctgtg tgaaattgtt atccgctcac aattccacac 10320 aacatacgag ccggaagcat aaagtgtaaa gcctggggtg cctaatgagt gagctaactc 10380 acattaattg cgttgcgctc actgcccgct ttccagtcgg gaaacctgtc gtgccagctg 10440 cattaatgaa tcggccaacg cgcggggaga ggcggtttgc gtattgggcc aaagacaaaa 10500 gggcgacatt caaccgattg agggagggaa ggtaaatatt gacggaaatt attcattaaa 10560 ggtgaattat caccgtcacc gacttgagcc atttgggaat tagagccagc aaaatcacca 10620 gtagcaccat taccattagc aaggccggaa acgtcaccaa tgaaaccatc gatagcagca 10680 ccgtaatcag tagcgacaga atcaagtttg cctttagcgt cagactgtag cgcgttttca 10740 tcggcatttt cggtcatagc ccccttatta gcgtttgcca tcttttcata atcaaaatca 10800 ccggaaccag agccaccacc ggaaccgcct ccctcagagc cgccaccctc agaaccgcca 10860 ccctcagagc caccaccctc agagccgcca ccagaaccac caccagagcc gccgccagca 10920 ttgacaggag gcccgatcta gtaacataga tgacaccgcg cgcgataatt tatcctagtt 10980 tgcgcgctat attttgtttt ctatcgcgta ttaaatgtat aattgcggga ctctaatcat 11040 aaaaacccat ctcataaata acgtcatgca ttacatgtta attattacat gcttaacgta 11100 attcaacaga aattatatga taatcatcgc aagaccggca acaggattca atcttaagaa 11160 actttattgc caaatgtttg aacgatcggg gatcatccgg gtctgtggcg ggaactccac 11220 gaaaatatcc gaacgcagca agatatcgcg gtgcatctcg gtcttgcctg ggcagtcgcc 11280 gccgacgccg ttgatgtgga cgccgggccc gatcatattg tcgctcagga tcgtggcgtt 11340 gtgcttgtcg gccgttgctg tcgtaatgat atcggcacct tcgaccgcct gttccgcaga 11400 gatcccgtgg gcgaagaact ccagcatgag atccccgcgc tggaggatca tccagccggc 11460 gtcccggaaa acgattccga agcccaacct ttcatagaag gcggcggtgg aatcgaaatc 11520 tcgtgatggc aggttgggcg tcgcttggtc ggtcatttcg aaccccagag tcccgctcag 11580 aagaactcgt caagaaggcg atagaaggcg atgcgctgcg aatcgggagc ggcgataccg 11640 taaagcacga ggaagcggtc agcccattcg ccgccaagct cttcagcaat atcacgggta 11700 gccaacgcta tgtcctgata gcggtccgcc acacccagcc ggccacagtc gatgaatcca 11760 gaaaagcggc cattttccac catgatattc ggcaagcagg catcgccatg ggtcacgacg 11820 agatcatcgc cgtcgggcat gcgcgccttg agcctggcga acagttcggc tggcgcgagc 11880 ccctgatgct cttcgtccag atcatcctga tcgacaagac cggcttccat ccgagtacgt 11940 gctcgctcga tgcgatgttt cgcttggtgg tcgaatgggc aggtagccgg atcaagcgta 12000 tgcagccgcc gcattgcatc agccatgatg gatactttct cggcaggagc aaggtgagat 12060 gacaggagat cctgccccgg cacttcgccc aatagcagcc agtcccttcc cgcttcagtg 12120 acaacgtcga gcacagctgc gcaaggaacg cccgtcgtgg ccagccacga tagccgcgct 12180 gcctcgtcct gcagttcatt cagggcaccg gacaggtcgg tcttgacaaa aagaaccggg 12240 cgcccctgcg ctgacagccg gaacacggcg gcatcagagc agccgattgt ctgttgtgcc 12300 cagtcatagc cgaatagcct ctccacccaa gcggccggag aacctgcgtg caatccatct 12360 tgttcaatca tgcgaaacga tccagatccg gtgcagatta tttggattga gagtgaatat 12420 gagactctaa ttggataccg aggggaattt atggaacgtc agtggagcat ttttgacaag 12480 aaatatttgc tagctgatag tgaccttagg cgacttttga acgcgcaata atggtttctg 12540 acgtatgtgc ttagctcatt aaactccaga aacccgcggc tgagtggctc cttcaacgtt 12600 gcggttctgt cagttccaaa cgtaaaacgg cttgtcccgc gtcatcggcg ggggtcataa 12660 cgtgactccc ttaattctcc gctcatgatc agattgtcgt ttcccgcctt cagtttaaac 12720 tatcagtgtt tgacaggata tattggcggg taaacctaag agaaaagagc gtttattaga 12780 ataatcggat atttaaaagg gcgtgaaaag gtttatccgt tcgtccattt gtatgtgcat 12840 gccaaccaca gggttcccca gatctggcgc cggccagcga gacgagcaag attggccgcc 12900 gcccgaaacg atccgacagc gcgcccagca caggtgcgca ggcaaattgc accaacgcat 12960 acagcgccag cagaatgcca tagtgggcgg tgacgtcgtt cgagtgaacc agatcgcgca 13020 ggaggcccgg cagcaccggc ataatcaggc cgatgccgac agcgtcgagc gcgacagtgc 13080 tcagaattac gatcaggggt atgttgggtt tcacgtctgg cctccggacc agcctccgct 13140 ggtccgattg aacgcgcgga ttctttatca ctgataagtt ggtggacata ttatgtttat 13200 cagtgataaa gtgtcaagca tgacaaagtt gcagccgaat acagtgatcc gtgccgccct 13260 ggacctgttg aacgaggtcg gcgtagacgg tctgacgaca cgcaaactgg cggaacggtt 13320 gggggttcag cagccggcgc tttactggca cttcaggaac aagcgggcgc tgctcgacgc 13380 actggccgaa gccatgctgg cggagaatca tacgcattcg gtgccgagag ccgacgacga 13440 ctggcgctca tttctgatcg ggaatgcccg cagcttcagg caggcgctgc tcgcctaccg 13500 cgatggcgcg cgcatccatg ccggcacgcg accgggcgca ccgcagatgg aaacggccga 13560 cgcgcagctt cgcttcctct gcgaggcggg tttttcggcc ggggacgccg tcaatgcgct 13620 gatgacaatc agctacttca ctgttggggc cgtgcttgag gagcaggccg gcgacagcga 13680 tgccggcgag cgcggcggca ccgttgaaca ggctccgctc tcgccgctgt tgcgggccgc 13740 gatagacgcc ttcgacgaag ccggtccgga cgcagcgttc gagcagggac tcgcggtgat 13800 tgtcgatgga ttggcgaaaa ggaggctcgt tgtcaggaac gttgaaggac cgagaaaggg 13860 tgacgattga tcaggaccgc tgccggagcg caacccactc actacagcag agccatgtag 13920 acaacatccc ctcccccttt ccaccgcgtc agacgcccgt agcagcccgc tacgggcttt 13980 ttcatgccct gccctagcgt ccaagcctca cggccgcgct cggcctctct ggcggccttc 14040 tggcgctctt ccgcttcctc gctcactgac tcgctgcgct cggtcgttcg gctgcggcga 14100 gcggtatcag ctcactcaaa ggcggtaata cggttatcca cagaatcagg ggataacgca 14160 ggaaagaaca tgtgagcaaa aggccagcaa aaggccagga accgtaaaaa ggccgcgttg 14220 ctggcgtttt tccataggct ccgcccccct gacgagcatc acaaaaatcg acgctcaagt 14280 cagaggtggc gaaacccgac aggactataa agataccagg cgtttccccc tggaagctcc 14340 ctcgtgcgct ctcctgttcc gaccctgccg cttaccggat acctgtccgc ctttctccct 14400 tcgggaagcg tggcgctttt ccgctgcata accctgcttc ggggtcatta tagcgatttt 14460 ttcggtatat ccatcctttt tcgcacgata tacaggattt tgccaaaggg ttcgtgtaga 14520 ctttccttgg tgtatccaac ggcgtcagcc gggcaggata ggtgaagtag gcccacccgc 14580 gagcgggtgt tccttcttca ctgtccctta ttcgcacctg gcggtgctca acgggaatcc 14640 tgctctgcga ggctggccgg ctaccgccgg cgtaacagat gagggcaagc ggatggctga 14700 tgaaaccaag ccaaccagga agggcagccc acctatcaag gtgtactgcc ttccagacga 14760 acgaagagcg attgaggaaa aggcggcggc ggccggcatg agcctgtcgg cctacctgct 14820 ggccgtcggc cagggctaca aaatcacggg cgtcgtggac tatgagcacg tccgcgagct 14880 ggcccgcatc aatggcgacc tgggccgcct gggcggcctg ctgaaactct ggctcaccga 14940 cgacccgcgc acggcgcggt tcggtgatgc cacgatcctc gccctgctgg cgaagatcga 15000 agagaagcag gacgagcttg gcaaggtcat gatgggcgtg gtccgcccga gggcagagcc 15060 atgacttttt tagccgctaa aacggccggg gggtgcgcgt gattgccaag cacgtcccca 15120 tgcgctccat caagaagagc gacttcgcgg agctggtgaa gtacatcacc gacgagcaag 15180 gcaagaccga gcgcctttgc gacgctca 15208 52 9285 DNA Artificial Sequence Description of Artificial SequencepMRT1336 52 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accgaagctt ggccggccgt 5760 taacacgcgt ggatccttaa ttaagtcgac tctagagctg cctgcagcac tagtatccgc 5820 cgtcatcaat gacatcatca cagtactgag gagatgaata gctagccatg acactctgtg 5880 cgaatattga agacgtaagc actgacgaca acaatgaaaa gaagaagata aggtcggtga 5940 ttgtgaaaga gacatagagg acacatgtaa ggtggaaaat gtaagggcgg aaagtaacct 6000 tatgcatttg taatttggtt acgactagtg attgatgtga tatcaagatt gatgtgatat 6060 ctccactgac gtaagggatg acgcatgcca cgactagtga ttgatgtgat atcaagattg 6120 atgtgatatc tccactgacg taagggatga cgcatgccac gactagtgat tgatgtgata 6180 tcaagattga tgtgatatct ccactgacgt aagggatgac gcatgccacg actagtgatt 6240 gatgtgatat caagattgat gtgatatctc cactgacgta agggatgacg catgccacgt 6300 tacccggtat gccggttccc aagctttatt tccttattta agcacttgtg tagtagctta 6360 gaaaaccaac acaacaacct agaggccgaa ttaacacgcg tggatcctta attaagtcga 6420 ctctaggggt ggtcagtccc ttatgttacg tcctgtagaa accccaaccc gtgaaatcaa 6480 aaaactcgac ggcctgtggg cattcagtct ggatcgcgaa aactgtggaa ttgatcagcg 6540 ttggtgggaa agcgcgttac aagaaagccg ggcaattgct gtgccaggca gttttaacga 6600 tcagttcgcc gatgcagata ttcgtaatta tgcgggcaac gtctggtatc agcgcgaagt 6660 ctttataccg aaaggttggg caggccagcg tatcgtgctg cgtttcgatg cggtcactca 6720 ttacggcaaa gtgtgggtca ataatcagga agtgatggag catcagggcg gctatacgcc 6780 atttgaagcc gatgtcacgc cgtatgttat tgccgggaaa agtgtacgta tcaccgtttg 6840 tgtgaacaac gaactgaact ggcagactat cccgccggga atggtgatta ccgacgaaaa 6900 cggcaagaaa aagcagtctt acttccatga tttctttaac tatgccggaa tccatcgcag 6960 cgtaatgctc tacaccacgc cgaacacctg ggtggacgat atcaccgtgg tgacgcatgt 7020 cgcgcaagac tgtaaccacg cgtctgttga ctggcaggtg gtggccaatg gtgatgtcag 7080 cgttgaactg cgtgatgcgg atcaacaggt ggttgcaact ggacaaggca ctagcgggac 7140 tttgcaagtg gtgaatccgc acctctggca accgggtgaa ggttatctct atgaactgtg 7200 cgtcacagcc aaaagccaga cagagtgtga tatctacccg cttcgcgtcg gcatccggtc 7260 agtggcagtg aagggcgaac agttcctgat taaccacaaa ccgttctact ttactggctt 7320 tggtcgtcat gaagatgcgg acttgcgtgg caaaggattc gataacgtgc tgatggtgca 7380 cgaccacgca ttaatggact ggattggggc caactcctac cgtacctcgc attaccctta 7440 cgctgaagag atgctcgact gggcagatga acatggcatc gtggtgattg atgaaactgc 7500 tgctgtcggc tttaacctct ctttaggcat tggtttcgaa gcgggcaaca agccgaaaga 7560 actgtacagc gaagaggcag tcaacgggga aactcagcaa gcgcacttac aggcgattaa 7620 agagctgata gcgcgtgaca aaaaccaccc aagcgtggtg atgtggagta ttgccaacga 7680 accggatacc cgtccgcaag gtgcacggga atatttcgcg ccactggcgg aagcaacgcg 7740 taaactcgac ccgacgcgtc cgatcacctg cgtcaatgta atgttctgcg acgctcacac 7800 cgataccatc agcgatctct ttgatgtgct gtgcctgaac cgttattacg gatggtatgt 7860 ccaaagcggc gatttggaaa cggcagagaa ggtactggaa aaagaacttc tggcctggca 7920 ggagaaactg catcagccga ttatcatcac cgaatacggc gtggatacgt tagccgggct 7980 gcactcaatg tacaccgaca tgtggagtga agagtatcag tgtgcatggc tggatatgta 8040 tcaccgcgtc tttgatcgcg tcagcgccgt cgtcggtgaa caggtatgga atttcgccga 8100 ttttgcgacc tcgcaaggca tattgcgcgt tggcggtaac aagaaaggga tcttcactcg 8160 cgaccgcaaa ccgaagtcgg cggcttttct gctgcaaaaa cgctggactg gcatgaactt 8220 cggtgaaaaa ccgcagcagg gaggcaaaca atgaatcaac aactctcctg gcgcaccatc 8280 gtcggctaca gcctcgggaa ttgctaccgc tagagaattc ggtacgctga aatcaccagt 8340 ctctctctac aaatctatct ctctctattt tctccataaa taatgtgtga gtagtttccc 8400 gataagggaa attagggttc ttatagggtt tcgctcatgt gttgagcata taagaaaccc 8460 ttagtatgta tttgtatttg taaaatactt ctatcaataa aatttctaat tcctaaaacc 8520 aaaatccagt actaaaatcc agatctccta aagtccctat agatctttgt cgtgaatata 8580 aaccagacac gagacgacta aacctggagc ccagacgccg ttcgaagcta gaagtaccgc 8640 ttaggcagga ggccgttagg gaaaagatgc taaggcaggg ttggttacgt tgactccccc 8700 gtaggtttgg tttaaatatg atgaagtgga cggaaggaag gaggaagaca aggaaggata 8760 aggttgcagg ccctgtgcaa ggtaagaaga tggaaatttg atagaggtac gctactatac 8820 ttatactata cgctaaggga atgcttgtat ttatacccta taccccctaa taacccctta 8880 tcaatttaag aaataatccg cataagcccc cgcttaaaaa ttggtatcag agccatgaat 8940 aggtctatga ccaaaactca agaggataaa acctcaccaa aatacgaaag agttcttaac 9000 tctaaagata aaagatcttt caagatcaaa actagttccc tcacaccggt gacggggatc 9060 gcatgcgata tctcgagcag attgtcgttt cccgccttca gtttaaacta tcagtgtttg 9120 acaggatata ttggcgggta aacctaagag aaaagagcgt ttattagaat aatcggatat 9180 ttaaaagggc gtgaaaaggt ttatccgttc gtccatttgt atgtgcatgc caaccacagg 9240 gtttaccggt tcctaggaaa agaccgagcg cctttgcgac gctca 9285 53 31 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide 53 agctctagag ctgcctgcag cactagtatc c 31 54 29 DNA Artificial Sequence Description of Artificial SequenceOligodesoxynucleotide 54 cggaattcgg cctctaggtt gttgtgttg 29 55 8289 DNA Artificial Sequence Description of Artificial SequencepMRT1337 55 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggaa aggtatgcgg tgtgaaatac cgcacagatg cgtaaggaga 660 aaataccgca tcaggcgctc ttccgcttcc tcgctcactg actcgctgcg ctcggtcgtt 720 cggctgcggc gagcggtatc agctcactca aaggcggtaa tacggttatc cacagaatca 780 ggggataacg caggaaagaa catgtgagca aaaggccagc aaaaggccag gaaccgtaaa 840 aaggccgcgt tgctggcgtt tttccatagg ctccgccccc ctgacgagca tcacaaaaat 900 cgacgctcaa gtcagaggtg gcgaaacccg acaggactat aaagatacca ggcgtttccc 960 cctggaagct ccctcgtgcg ctctcctgtt ccgaccctgc cgcttaccgg atacctgtcc 1020 gcctttctcc cttcgggaag cgtggcgctt tctcatagct cacgctgtag gtatctcagt 1080 tcggtgtagg tcgttcgctc caagctgggc tgtgtgcacg aaccccccgt tcagcccgac 1140 cgctgcgcct tatccggtaa ctatcgtctt gagtccaacc cggtaagaca cgacttatcg 1200 ccactggcag cagccttcta ccataatccg cgataaaccc agcgaaccat ttgaggtgat 1260 aggtaagatt ataccgaggt atgaaaacga gaattggacc tttacagaat tactctatga 1320 agcgccatat ttaaaaagct accaagacga agaggatgaa gaggatgagg aggcagattg 1380 ccttgaatat attgacaata ctgataagat aatacatctt ttatatagaa gatatcgccg 1440 tatgtaagga tttcaggggg caaggcatag gcagcgcgct tatcaatata tctatagaat 1500 gggcaaagca taaaaacttg catggactaa tgcttgaaac ccaggacaat aaccttatag 1560 cttgtaaatt ctaccaaaat tgtggtttca aaatcggctc cgtcgatact atgttatacg 1620 ccaactttga aaacaacttt gaaaaagctg ttttctggta tttaaggttt tagaatgcaa 1680 ggaacagtga attggagttc gtcttgttat aattagcttc ttggggtatc tttaaatact 1740 gtagaaaaga ggaaggaaat aataaatggc taaaatgaga atatcaccgg aattgaaaaa 1800 actgatcgaa aaataccgct gcgtaaaaga tacggaagga atgtctcctg ctaaggtata 1860 taagctggtg ggagaaaatg aaaacctata tttaaaaatg acggacagcc ggtataaagg 1920 gaccacctat gatgtggaac gggaaaagga catgatgcta tggctggaag gaaagctgcc 1980 tgttccaaag gtcctgcact ttgaacggca tgatggctgg agcaatctgc tcatgagtga 2040 ggccgatggc gtcctttgct cggaagagta tgaagatgaa caaagccctg aaaagattat 2100 cgagctgtat gcggagtgca tcaggctctt tcactccatc gacatatcgg attgtcccta 2160 tacgaatagc ttagacagcc gcttagccga attggattac ttactgaata acgatctggc 2220 cgatgtggat tgcgaaaact gggaagaaga cactccattt aaagatccgc gcgagctgta 2280 tgatttttta aagacggaaa agcccgaaga ggaacttgtc ttttcccacg gcgacctggg 2340 agacagcaac atctttgtga aagatggcaa agtaagtggc tttattgatc ttgggagaag 2400 cggcagggcg gacaagtggt atgacattgc cttctgcgtc cggtcgatca gggaggatat 2460 cggggaagaa cagtatgtcg agctattttt tgacttactg gggatcaagc ctgattggga 2520 gaaaataaaa tattatattt tactggatga attgttttag tacctagatg tggcgcaacg 2580 atgccggcga caagcaggag cgcaccgact tcttccgcat caagtgtttt ggctctcagg 2640 ccgaggccca cggcaagtat ttgggcaagg ggtcgctggt attcgtgcag ggcaagattc 2700 ggaataccaa gtacgagaag gacggccaga cggtctacgg gaccgacttc attgccgata 2760 aggtggatta tctggacacc aaggcaccag gcgggtcaaa tcaggaataa gggcacattg 2820 ccccggcgtg agtcggggca atcccgcaag gagggtgaat gaatcggacg tttgaccgga 2880 aggcatacag gcaagaactg atcgacgcgg ggttttccgc cgaggatgcc gaaaccatcg 2940 caagccgcac cgtcatgcgt gcgccccgcg aaaccttcca gtccgtcggc tcgatggtcc 3000 agcaagctac ggccaagatc gagcgcgaca gcgtgcaact ggctccccct gccctgcccg 3060 cgccatcggc cgccgtggag cgttcgcgtc gtctcgaaca ggaggcggca ggtttggcga 3120 agtcgatgac catcgacacg cgaggaacta tgacgaccaa gaagcgaaaa accgccggcg 3180 aggacctggc aaaacaggtc agcgaggcca agcaggccgc gttgctgaaa cacacgaagc 3240 agcagatcaa ggaaatgcag ctttccttgt tcgatattgc gccgtggccg gacacgatgc 3300 gagcgatgcc aaacgacacg gcccgctctg ccctgttcac cacgcgcaac aagaaaatcc 3360 cgcgcgaggc gctgcaaaac aaggtcattt tccacgtcaa caaggacgtg aagatcacct 3420 acaccggcgt cgagctgcgg gccgacgatg acgaactggt gtggcagcag gtgttggagt 3480 acgcgaagcg cacccctatc ggcgagccga tcaccttcac gttctacgag ctttgccagg 3540 acctgggctg gtcgatcaat ggccggtatt acacgaaggc cgaggaatgc ctgtcgcgcc 3600 tacaggcgac ggcgatgggc ttcacgtccg accgcgttgg gcacctggaa tcggtgtcgc 3660 tgctgcaccg cttccgcgtc ctggaccgtg gcaagaaaac gtcccgttgc caggtcctga 3720 tcgacgagga aatcgtcgtg ctgtttgctg gcgaccacta cacgaaattc atatgggaga 3780 agtaccgcaa gctgtcgccg acggcccgac ggatgttcga ctatttcagc tcgcaccggg 3840 agccgtaccc gctcaagctg gaaaccttcc gcctcatgtg cggatcggat tccacccgcg 3900 tgaagaagtg gcgcgagcag gtcggcgaag cctgcgaaga gttgcgaggc agcggcctgg 3960 tggaacacgc ctgggtcaat gatgacctgg tgcattgcaa acgctagggc cttgtggggt 4020 cagttccggc tgggggttca gcagccagcg ctttactggc atttcctagg ttgacgtctt 4080 ctgatgggct gcctgtatcg agtggtgatt ttgtgccgag ctgccggtcg gggagctgtt 4140 ggctggctgg tggcaggata tattgtggtg taaacaaatt gacgcttaga caacttaata 4200 acacattgcg gacgttttta atgtactggg gctatccccc gggggatatc cataggcccg 4260 atctagtaac ataatgacac cgcgcgcgat aatttatcct agtttgcgcg ctatattttg 4320 ttttctatcg cgtattaaat gtataattgc gggactctaa tcataaaaac ccatctcata 4380 aataacgtca tgcattacat gttaattatt acatgcttaa cgtaattcaa cagaaattat 4440 atgataatca tcgcaagacc ggcaacagga ttcaatctta agaaacttta ttgccaaatg 4500 tttgaacgat cgttcgtcga gctatgggcc caagttgcgc atcccgtggg cgaagaactc 4560 cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa cgattccgaa 4620 gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca ggttgggcgt 4680 cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc aagaaggcga 4740 tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag gaagcggtca 4800 gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat gtcctgatag 4860 cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc attttccacc 4920 atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc gtcgggcatg 4980 cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc ttcgtccaga 5040 tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat gcgatgtttc 5100 gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg cattgcatca 5160 gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc ctgccccggc 5220 acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag cacagctgcg 5280 caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg cagttcattc 5340 agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc tgacagccgg 5400 aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc gaatagcctc 5460 tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat gcgaaacgat 5520 ccagatccgg atgcagatta tttggattga gagtaaatat gagactctaa ttggataccg 5580 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 5640 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 5700 aaactccaga aacccgcggc tgagtggctc cttcaacggt accctactcc aagaatatca 5760 aagatacagt ctcagaagac caaagggcta ttgagacttt tcaacaaagg gtaatttcgg 5820 gaaacctcct cggattccat tgcccagcta tctgtcactt catcgaaagg acagtagaaa 5880 aggaaggtgg ctcctacaaa tgccatcatt gcgataaagg aaaggctatc attcaagatg 5940 cctctgccga cagtggtccc aaagatggac ccccacccac gaggagcatc gtggaaaaag 6000 aagacgttcc aaccacgtct tcaaagcaag tggattgatg tgacatctcc actgacgtaa 6060 gggatgacgc acaatcccac ccctactcca aaaatgtcaa agatacagtc tcagaagacc 6120 aaagggctat tgagactttt caacaaaggg taatttcggg aaacctcctc ggattccatt 6180 gcccagctat ctgtcacttc atcgaaagga cagtagaaaa ggaaggtggc tcctacaaat 6240 gccatcattg cgataaagga aaggctatca ttcaagatgc ctctgccgac agtggtccca 6300 aagatggacc cccacccacg aggagcatcg tggaaaaaga agacgttcca accacgtctt 6360 caaagcaagt ggattgatgt gacatctcca ctgacgtaag ggatgacgca caatcccact 6420 atccttcgca agacccttcc tctatataag gaagttcatt tcatttggag aggacagccc 6480 aagcttggcc ggccgttaac acgcgtggat ccaaggagat ataacaatga agactaatct 6540 ttttctcttt ctcatctttt cacttctcct atcattatcc tcggccgaat tcagtaaagg 6600 agaagaactt ttcactggag ttgtcccaat tcttgttgaa ttagatggtg atgttaatgg 6660 gcacaaattt tctgtcagtg gagagggtga aggtgatgca acatacggaa aacttaccct 6720 taaatttatt tgcactactg gaaaactacc tgttccatgg ccaacacttg tcactacttt 6780 ctcttatggt gttcaatgct tttcaagata cccagatcat atgaagcggc acgacttctt 6840 caagagcgcc atgcctgagg gatacgtgca ggagaggacc atcttcttca aggacgacgg 6900 gaactacaag acacgtgctg aagtcaagtt tgagggagac accctcgtca acaggatcga 6960 gcttaaggga atcgatttca aggaggacgg aaacatcctc ggccacaagt tggaatacaa 7020 ctacaactcc cacaacgtat acatcatggc cgacaagcaa aagaacggca tcaaagccaa 7080 cttcaagacc cgccacaaca tcgaagacgg cggcgtgcaa ctcgctgatc attatcaaca 7140 aaatactcca attggcgatg gccctgtcct tttaccagac aaccattacc tgtccacaca 7200 atctgccctt tcgaaagatc ccaacgaaaa gagagaccac atggtccttc ttgagtttgt 7260 aacagctgct gggattacac atggcatgga tgaactatac aaacatgatg agctttaaga 7320 attcggtacg ctgaaatcac cagtctctct ctacaaatct atctctctct attttctcca 7380 taaataatgt gtgagtagtt tcccgataag ggaaattagg gttcttatag ggtttcgctc 7440 atgtgttgag catataagaa acccttagta tgtatttgta tttgtaaaat acttctatca 7500 ataaaatttc taattcctaa aaccaaaatc cagtactaaa atccagatct cctaaagtcc 7560 ctatagatct ttgtcgtgaa tataaaccag acacgagacg actaaacctg gagcccagac 7620 gccgttcgaa gctagaagta ccgcttaggc aggaggccgt tagggaaaag atgctaaggc 7680 agggttggtt acgttgactc ccccgtaggt ttggtttaaa tatgatgaag tggacggaag 7740 gaaggaggaa gacaaggaag gataaggttg caggccctgt gcaaggtaag aagatggaaa 7800 tttgatagag gtacgctact atacttatac tatacgctaa gggaatgctt gtatttatac 7860 cctatacccc ctaataaccc cttatcaatt taagaaataa tccgcataag cccccgctta 7920 aaaattggta tcagagccat gaataggtct atgaccaaaa ctcaagagga taaaacctca 7980 ccaaaatacg aaagagttct taactctaaa gataaaagat ctttcaagat caaaactagt 8040 tccctcacac cggtgacggg gatcgcatgc gatatctcga gcagattgtc gtttcccgcc 8100 ttcagtttaa actatcagtg tttgacagga tatattggcg ggtaaaccta agagaaaaga 8160 gcgtttatta gaataatcgg atatttaaaa gggcgtgaaa aggtttatcc gttcgtccat 8220 ttgtatgtgc atgccaacca cagggtttac cggttcctag gaaaagaccg agcgcctttg 8280 cgacgctca 8289 56 14108 DNA Artificial Sequence Description of Artificial SequencepMRT1341 56 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggcc cgctaacgcg ggcctcccat ccccccaggg gctgcgcccc 660 tcggccgcga acggcctcac cccaaaaatg gcagcgctgg cagtccttgc cattgccggg 720 atcggggcag taacgggatg ggcgatcagc ccgagcgcga cgcccggaag cattgacgtg 780 ccgcaggtgc tggcatcgac attcagcgac caggtgccgg gcagtgaggg cggcggcctg 840 ggtggcggcc tgcccttcac ttcggccgtc ggggcattca cggacttcat ggcggggccg 900 gcaattttta ccttgggcat tcttggcata gtggtcgcgg gtgccgtgct cgtgttcggg 960 ggtgcgataa acccagcgaa ccatttgagg tgataggtaa gattataccg aggtatgaaa 1020 acgagaattg gacctttaca gaattactct atgaagcgcc atatttaaaa agctaccaag 1080 acgaagagga tgaagaggat gaggaggcag attgccttga atatattgac aatactgata 1140 agataatata tcttttatat agaagatatc gccgtatgta aggatttcag ggggcaaggc 1200 ataggcagcg cgcttatcaa tatatctata gaatgggcaa agcataaaaa cttgcatgga 1260 ctaatgcttg aaacccagga caataacctt atagcttgta aattctatca taattgggta 1320 atgactccaa cttattgata gtgttttatg ttcagataat gcccgatgac tttgtcatgc 1380 agctccaccg attttgagaa cgacagcgac ttccgtccca gccgtgccag gtgctgcctc 1440 agattcaggt tatgccgctc aattcgctgc gtatatcgct tgctgattac gtgcagcttt 1500 cccttcaggc gggattcata cagcggccag ccatccgtca tccatatcac cacgtcaaag 1560 ggtgacagca ggctcataag acgccccagc gtcgccatag tgcgttcacc gaatacgtgc 1620 gcaacaaccg tcttccggag actgtcatac gcgtaaaaca gccagcgctg gcgcgattta 1680 gccccgacat agccccactg ttcgtccatt tccgcgcaga cgatgacgtc actgcccggc 1740 tgtatgcgcg aggttaccga ctgcggcctg agttttttaa gtgacgtaaa atcgtgttga 1800 ggccaacgcc cataatgcgg gctgttgccc ggcatccaac gccattcatg gccatatcaa 1860 tgattttctg gtgcgtaccg ggttgagaag cggtgtaagt gaactgcagt tgccatgttt 1920 tacggcagtg agagcagaga tagcgctgat gtccggcggt gcttttgccg ttacgcacca 1980 ccccgtcagt agctgaacag gagggacagc tgatagacac agaagccact ggagcacctc 2040 aaaaacacca tcatacacta aatcagtaag ttggcagcat cacccataat tgtggtttca 2100 aaatcggctc cgtcgatact atgttatacg ccaactttga aaacaacttt gaaaaagctg 2160 ttttctggta tttaaggttt tagaatgcaa ggaacagtga attggagttc gtcttgttat 2220 aattagcttc ttggggtatc tttaaatact gtagaaaaga ggaaggaaat aataaatggc 2280 taaaatgaga atatcaccgg aattgaaaaa actgatcgaa aaataccgct gcgtaaaaga 2340 tacggaagga atgtctcctg ctaaggtata taagctggtg ggagaaaatg aaaacctata 2400 tttaaaaatg acggacagcc ggtataaagg gaccacctat gatgtggaac gggaaaagga 2460 catgatgcta tggctggaag gaaagctgcc tgttccaaag gtcctgcact ttgaacggca 2520 tgatggctgg agcaatctgc tcatgagtga ggccgatggc gtcctttgct cggaagagta 2580 tgaagatgaa caaagccctg aaaagattat cgagctgtat gcggagtgca tcaggctctt 2640 tcactccatc gacatatcgg attgtcccta tacgaatagc ttagacagcc gcttagccga 2700 attggattac ttactgaata acgatctggc cgatgtggat tgcgaaaact gggaagaaga 2760 cactccattt aaagatccgc gcgagctgta tgatttttta aagacggaaa agcccgaaga 2820 ggaacttgtc ttttcccacg gcgacctggg agacagcaac atctttgtga aagatggcaa 2880 agtaagtggc tttattgatc ttgggagaag cggcagggcg gacaagtggt atgacattgc 2940 cttctgcgtc cggtcgatca gggaggatat cggggaagaa cagtatgtcg agctattttt 3000 tgacttactg gggatcaagc ctgattggga gaaaataaaa tattatattt tactggatga 3060 attgttttag tacctagatg tggcgcaacg atgccggcga caagcaggag cgcaccgact 3120 tcttccgcat caagtgtttt ggctctcagg ccgaggccca cggcaagtat ttgggcaagg 3180 ggtcgctggt attcgtgcag ggcaagattc ggaataccaa gtacgagaag gacggccaga 3240 cggtctacgg gaccgacttc attgccgata aggtggatta tctggacacc aaggcaccag 3300 gcgggtcaaa tcaggaataa gggcacattg ccccggcgtg agtcggggca atcccgcaag 3360 gagggtgaat gaatcggacg tttgaccgga aggcatacag gcaagaactg atcgacgcgg 3420 ggttttccgc cgaggatgcc gaaaccatcg caagccgcac cgtcatgcgt gcgccccgcg 3480 aaaccttcca gtccgtcggc tcgatggtcc agcaagctac ggccaagatc gagcgcgaca 3540 gcgtgcaact ggctccccct gccctgcccg cgccatcggc cgccgtggag cgttcgcgtc 3600 gtctcgaaca ggaggcggca ggtttggcga agtcgatgac catcgacacg cgaggaacta 3660 tgacgaccaa gaagcgaaaa accgccggcg aggacctggc aaaacaggtc agcgaggcca 3720 agcaggccgc gttgctgaaa cacacgaagc agcagatcaa ggaaatgcag ctttccttgt 3780 tcgatattgc gccgtggccg gacacgatgc gagcgatgcc aaacgacacg gcccgctctg 3840 ccctgttcac cacgcgcaac aagaaaatcc cgcgcgaggc gctgcaaaac aaggtcattt 3900 tccacgtcaa caaggacgtg aagatcacct acaccggcgt cgagctgcgg gccgacgatg 3960 acgaactggt gtggcagcag gtgttggagt acgcgaagcg cacccctatc ggcgagccga 4020 tcaccttcac gttctacgag ctttgccagg acctgggctg gtcgatcaat ggccggtatt 4080 acacgaaggc cgaggaatgc ctgtcgcgcc tacaggcgac ggcgatgggc ttcacgtccg 4140 accgcgttgg gcacctggaa tcggtgtcgc tgctgcaccg cttccgcgtc ctggaccgtg 4200 gcaagaaaac gtcccgttgc caggtcctga tcgacgagga aatcgtcgtg ctgtttgctg 4260 gcgaccacta cacgaaattc atatgggaga agtaccgcaa gctgtcgccg acggcccgac 4320 ggatgttcga ctatttcagc tcgcaccggg agccgtaccc gctcaagctg gaaaccttcc 4380 gcctcatgtg cggatcggat tccacccgcg tgaagaagtg gcgcgagcag gtcggcgaag 4440 cctgcgaaga gttgcgaggc agcggcctgg tggaacacgc ctgggtcaat gatgacctgg 4500 tgcattgcaa acgctagggc cttgtggggt cagttccggc tgggggttca gcagccagcg 4560 ctttactggc atttcaggaa caagcgggca ctgctcgacg cacttgcttc gctcagtatc 4620 gctcgggacg cacggcgcgc tctacgaact gccgataaac agaggattaa aattgacaat 4680 tgtgattaag gctcagattc gacggcttgg agcggccgac gtgcaggatt tccgcgagat 4740 ccgattgtcg gccctgaaga aagctccaga gatgttcggg tccgtttacg agcacgagga 4800 gaaaaagccc atggaggcgt tcgctgaacg gttgcgagat gccgtggcat tcggcgccta 4860 catcgacggc gagatcattg ggctgtcggt cttcaaacag gaggacggcc ccaaggacgc 4920 tcacaaggcg catctgtccg gcgttttcgt ggagcccgaa cagcgaggcc gaggggtcgc 4980 cggtatgctg ctgcgggcgt tgccggcggg tttattgctc gtgatgatcg tccgacagat 5040 tccaacggga atctggtgga tgcgcatctt catcctcggc gcacttaata tttcgctatt 5100 ctggagcttg ttgtttattt cggtctaccg cctgccgggc ggggtcgcgg cgacggtagg 5160 cgctgtgcag ccgctgatgg tcgtgttcat ctctgccgct ctgctaggta gcccgatacg 5220 attgatggcg gtcctggggg ctatttgcgg aactgcgggc gtggcgctgt tggtgttgac 5280 accaaacgca gcgctagatc ctgtcggcgt cgcagcgggc ctggcggggg cggtttccat 5340 ggcgttcgga accgtgctga cccgcaagtg gcaacctccc gtgcctctgc tcacctttac 5400 cgcctggcaa ctggcggccg gaggacttct gctcgttcca gtagctttag tgtttgatcc 5460 gccaatcccg atgcctacag gaaccaatgt tctcggcctg gcgtggctcg gcctgatcgg 5520 agcgggttta acctacttcc tttggttccg ggggatctcg cgactcgaac ctacagttgt 5580 ttccttactg ggctttctca gccccagatc tggggtcgat cagccgggga tgcatcaggc 5640 cgacagtcgg aacttcgggt ccccgacctg taccattcgg tgagcaatgg ataggggagt 5700 tgatatcgtc aacgttcact tctaaagaaa tagcgccact cagcttcctc agcggcttta 5760 tccagcgatt tcctattatg tcggcatagt tctcaagatc gacagcctgt cacggttaag 5820 cgagaaatga ataagaaggc tgataattcg gatctctgcg agggagatga tatttgatca 5880 caggcagcaa cgctctgtca tcgttacaat caacatgcta ccctccgcga gatcatccgt 5940 gtttcaaacc cggcagctta gttgccgttc ttccgaatag catcggtaac atgagcaaag 6000 tctgccgcct tacaacggct ctcccgctga cgccgtcccg gactgatggg ctgcctgtat 6060 cgagtggtga ttttgtgccg agctgccggt cggggagctg ttggctggct ggtggcagga 6120 tatattgtgg tgtaaacaaa ttgacgctta gacaacttaa taacacattg cggacgtttt 6180 taatgtactg gggtggtttt tcttttcacc agtgagacgg gcaacagctg attgcccttc 6240 accgcctggc cctgagagag ttgcagcaag cggtccacgc tggtttgccc cagcaggcga 6300 aaatcctgtt tgatggtggt tccgaaatcg gcaaaatccc ttataaatca aaagaatagc 6360 ccgagatagg gttgagtgtt gttccagttt ggaacaagag tccactatta aagaacgtgg 6420 actccaacgt caaagggcga aaaaccgtct atcagggcga tggcccacta cgtgaaccat 6480 cacccaaatc aagttttttg gggtcgaggt gccgtaaagc actaaatcgg aaccctaaag 6540 ggagcccccg atttagagct tgacggggaa agccggcgaa cgtggcgaga aaggaaggga 6600 agaaagcgaa aggagcgggc gccattcagg ctgcgcaact gttgggaagg gcgatcggtg 6660 cgggcctctt cgctattacg ccagctggcg aaagggggat gtgctgcaag gcgattaagt 6720 tgggtaacgc cagggttttc ccagtcacga cgttgtaaaa cgacggccag tgaatttcga 6780 gatatcgcat gcgatccccg tcaaccggtg tgagggaact agttttgatc ttgaaagatc 6840 ttttatcttt agagttaaga actctttcgt attttggtga ggttttatcc tcttgagttt 6900 tggtcataga cctattcatg gctctgatac caatttttaa gcgggggctt atgcggatta 6960 tttcttaaat tgataagggg ttattagggg gtatagggta taaatacaag cattccctta 7020 gcgtatagta taagtatagt agcgtacctc tatcaaattt ccatcttctt accttgcaca 7080 gggcctgcaa ccttatcctt ccttgtcttc ctccttcctt ccgtccactt catcatattt 7140 aaaccaaacc tacgggggag tcaacgtaac caaccctgcc ttagcatctt ttccctaacg 7200 gcctcctgcc taagcggtac ttctagcttc gaacggcgtc tgggctccag gtttagtcgt 7260 ctcgtgtctg gtttatattc acgacaaaga tctataggga ctttaggaga tctggatttt 7320 agtactggat tttggtttta ggaattagaa attttattga tagaagtatt ttacaaatac 7380 aaatacatac taagggtttc ttatatgctc aacacatgag cgaaacccta taagaaccct 7440 aatttccctt atcgggaaac tactcacaca ttatttatgg agaaaataga gagagataga 7500 tttgtagaga gagactggtg atttcagcgt accgaattct taaagctcat catgtttgta 7560 tagttcatcc atgccatgtg taatcccagc agctgttaca aactcaagaa ggaccatgtg 7620 gtctctcttt tcgttgggat ctttcgaaag ggcagattgt gtggacaggt aatggttgtc 7680 tggtaaaagg acagggccat cgccaattgg agtattttgt tgataatgat cagcgagttg 7740 cacgccgccg tcttcgatgt tgtggcgggt cttgaagttg gctttgatgc cgttcttttg 7800 cttgtcggcc atgatgtata cgttgtggga gttgtagttg tattccaact tgtggccgag 7860 gatgtttccg tcctccttga aatcgattcc cttaagctcg atcctgttga cgagggtgtc 7920 tccctcaaac ttgacttcag cacgtgtctt gtagttcccg tcgtccttga agaagatggt 7980 cctctcctgc acgtatccct caggcatggc gctcttgaag aagtcgtgcc gcttcatatg 8040 atctgggtat cttgaaaagc attgaacacc ataagagaaa gtagtgacaa gtgttggcca 8100 tggaacaggt agttttccag tagtgcaaat aaatttaagg gtaagttttc cgtatgttgc 8160 atcaccttca ccctctccac tgacagaaaa tttgtgccca ttaacatcac catctaattc 8220 aacaagaatt gggacaactc cagtgaaaag ttcttctcct ttactgaatt cggccgagga 8280 taatgatagg agaagtgaaa agatgagaaa gagaaaaaga ttagtcttca ttgttatatc 8340 tccttggatc cacgcgtgtt aacggccggc caagcttggg ctgtcctctc caaatgaaat 8400 gaacttcctt atatagagga agggtcttgc gaaggatagt gggattgtgc gtcatccctt 8460 acgtcagtgg agatgtcaca tcaatccact tgctttgaag acgtggttgg aacgtcttct 8520 ttttccacga tgctcctcgt gggtgggggt ccatctttgg gaccactgtc ggcagaggca 8580 tcttgaatga tagcctttcc tttatcgcaa tgatggcatt tgtaggagcc accttccttt 8640 tctactgtcc tttcgatgaa gtgacagata gctgggcaat ggaatccgag gaggtttccc 8700 gaaattaccc tttgttgaaa agtctcaata gccctttggt cttctgagac tgtatctttg 8760 acatttttgg agtaggggtg ggattgtgcg tcatccctta cgtcagtgga gatgtcacat 8820 caatccactt gctttgaaga cgtggttgga acgtcttctt tttccacgat gctcctcgtg 8880 ggtgggggtc catctttggg accactgtcg gcagaggcat cttgaatgat agcctttcct 8940 ttatcgcaat gatggcattt gtaggagcca ccttcctttt ctactgtcct ttcgatgaag 9000 tgacagatag ctgggcaatg gaatccgagg aggtttcccg aaattaccct ttgttgaaaa 9060 gtctcaatag ccctttggtc ttctgagact gtatctttga tattcttgga gtagggtacc 9120 cggggatcct ctagagtcga cctgcaggca tgcaagcttg gcgtaatcat ggtcatagct 9180 gtttcctgtg tgaaattgtt atccgctcac aattccacac aacatacgag ccggaagcat 9240 aaagtgtaaa gcctggggtg cctaatgagt gagctaactc acattaattg cgttgcgctc 9300 actgcccgct ttccagtcgg gaaacctgtc gtgccagctg cattaatgaa tcggccaacg 9360 cgcggggaga ggcggtttgc gtattgggcc aaagacaaaa gggcgacatt caaccgattg 9420 agggagggaa ggtaaatatt gacggaaatt attcattaaa ggtgaattat caccgtcacc 9480 gacttgagcc atttgggaat tagagccagc aaaatcacca gtagcaccat taccattagc 9540 aaggccggaa acgtcaccaa tgaaaccatc gatagcagca ccgtaatcag tagcgacaga 9600 atcaagtttg cctttagcgt cagactgtag cgcgttttca tcggcatttt cggtcatagc 9660 ccccttatta gcgtttgcca tcttttcata atcaaaatca ccggaaccag agccaccacc 9720 ggaaccgcct ccctcagagc cgccaccctc agaaccgcca ccctcagagc caccaccctc 9780 agagccgcca ccagaaccac caccagagcc gccgccagca ttgacaggag gcccgatcta 9840 gtaacataga tgacaccgcg cgcgataatt tatcctagtt tgcgcgctat attttgtttt 9900 ctatcgcgta ttaaatgtat aattgcggga ctctaatcat aaaaacccat ctcataaata 9960 acgtcatgca ttacatgtta attattacat gcttaacgta attcaacaga aattatatga 10020 taatcatcgc aagaccggca acaggattca atcttaagaa actttattgc caaatgtttg 10080 aacgatcggg gatcatccgg gtctgtggcg ggaactccac gaaaatatcc gaacgcagca 10140 agatatcgcg gtgcatctcg gtcttgcctg ggcagtcgcc gccgacgccg ttgatgtgga 10200 cgccgggccc gatcatattg tcgctcagga tcgtggcgtt gtgcttgtcg gccgttgctg 10260 tcgtaatgat atcggcacct tcgaccgcct gttccgcaga gatcccgtgg gcgaagaact 10320 ccagcatgag atccccgcgc tggaggatca tccagccggc gtcccggaaa acgattccga 10380 agcccaacct ttcatagaag gcggcggtgg aatcgaaatc tcgtgatggc aggttgggcg 10440 tcgcttggtc ggtcatttcg aaccccagag tcccgctcag aagaactcgt caagaaggcg 10500 atagaaggcg atgcgctgcg aatcgggagc ggcgataccg taaagcacga ggaagcggtc 10560 agcccattcg ccgccaagct cttcagcaat atcacgggta gccaacgcta tgtcctgata 10620 gcggtccgcc acacccagcc ggccacagtc gatgaatcca gaaaagcggc cattttccac 10680 catgatattc ggcaagcagg catcgccatg ggtcacgacg agatcatcgc cgtcgggcat 10740 gcgcgccttg agcctggcga acagttcggc tggcgcgagc ccctgatgct cttcgtccag 10800 atcatcctga tcgacaagac cggcttccat ccgagtacgt gctcgctcga tgcgatgttt 10860 cgcttggtgg tcgaatgggc aggtagccgg atcaagcgta tgcagccgcc gcattgcatc 10920 agccatgatg gatactttct cggcaggagc aaggtgagat gacaggagat cctgccccgg 10980 cacttcgccc aatagcagcc agtcccttcc cgcttcagtg acaacgtcga gcacagctgc 11040 gcaaggaacg cccgtcgtgg ccagccacga tagccgcgct gcctcgtcct gcagttcatt 11100 cagggcaccg gacaggtcgg tcttgacaaa aagaaccggg cgcccctgcg ctgacagccg 11160 gaacacggcg gcatcagagc agccgattgt ctgttgtgcc cagtcatagc cgaatagcct 11220 ctccacccaa gcggccggag aacctgcgtg caatccatct tgttcaatca tgcgaaacga 11280 tccagatccg gtgcagatta tttggattga gagtgaatat gagactctaa ttggataccg 11340 aggggaattt atggaacgtc agtggagcat ttttgacaag aaatatttgc tagctgatag 11400 tgaccttagg cgacttttga acgcgcaata atggtttctg acgtatgtgc ttagctcatt 11460 aaactccaga aacccgcggc tgagtggctc cttcaacgtt gcggttctgt cagttccaaa 11520 cgtaaaacgg cttgtcccgc gtcatcggcg ggggtcataa cgtgactccc ttaattctcc 11580 gctcatgatc agattgtcgt ttcccgcctt cagtttaaac tatcagtgtt tgacaggata 11640 tattggcggg taaacctaag agaaaagagc gtttattaga ataatcggat atttaaaagg 11700 gcgtgaaaag gtttatccgt tcgtccattt gtatgtgcat gccaaccaca gggttcccca 11760 gatctggcgc cggccagcga gacgagcaag attggccgcc gcccgaaacg atccgacagc 11820 gcgcccagca caggtgcgca ggcaaattgc accaacgcat acagcgccag cagaatgcca 11880 tagtgggcgg tgacgtcgtt cgagtgaacc agatcgcgca ggaggcccgg cagcaccggc 11940 ataatcaggc cgatgccgac agcgtcgagc gcgacagtgc tcagaattac gatcaggggt 12000 atgttgggtt tcacgtctgg cctccggacc agcctccgct ggtccgattg aacgcgcgga 12060 ttctttatca ctgataagtt ggtggacata ttatgtttat cagtgataaa gtgtcaagca 12120 tgacaaagtt gcagccgaat acagtgatcc gtgccgccct ggacctgttg aacgaggtcg 12180 gcgtagacgg tctgacgaca cgcaaactgg cggaacggtt gggggttcag cagccggcgc 12240 tttactggca cttcaggaac aagcgggcgc tgctcgacgc actggccgaa gccatgctgg 12300 cggagaatca tacgcattcg gtgccgagag ccgacgacga ctggcgctca tttctgatcg 12360 ggaatgcccg cagcttcagg caggcgctgc tcgcctaccg cgatggcgcg cgcatccatg 12420 ccggcacgcg accgggcgca ccgcagatgg aaacggccga cgcgcagctt cgcttcctct 12480 gcgaggcggg tttttcggcc ggggacgccg tcaatgcgct gatgacaatc agctacttca 12540 ctgttggggc cgtgcttgag gagcaggccg gcgacagcga tgccggcgag cgcggcggca 12600 ccgttgaaca ggctccgctc tcgccgctgt tgcgggccgc gatagacgcc ttcgacgaag 12660 ccggtccgga cgcagcgttc gagcagggac tcgcggtgat tgtcgatgga ttggcgaaaa 12720 ggaggctcgt tgtcaggaac gttgaaggac cgagaaaggg tgacgattga tcaggaccgc 12780 tgccggagcg caacccactc actacagcag agccatgtag acaacatccc ctcccccttt 12840 ccaccgcgtc agacgcccgt agcagcccgc tacgggcttt ttcatgccct gccctagcgt 12900 ccaagcctca cggccgcgct cggcctctct ggcggccttc tggcgctctt ccgcttcctc 12960 gctcactgac tcgctgcgct cggtcgttcg gctgcggcga gcggtatcag ctcactcaaa 13020 ggcggtaata cggttatcca cagaatcagg ggataacgca ggaaagaaca tgtgagcaaa 13080 aggccagcaa aaggccagga accgtaaaaa ggccgcgttg ctggcgtttt tccataggct 13140 ccgcccccct gacgagcatc acaaaaatcg acgctcaagt cagaggtggc gaaacccgac 13200 aggactataa agataccagg cgtttccccc tggaagctcc ctcgtgcgct ctcctgttcc 13260 gaccctgccg cttaccggat acctgtccgc ctttctccct tcgggaagcg tggcgctttt 13320 ccgctgcata accctgcttc ggggtcatta tagcgatttt ttcggtatat ccatcctttt 13380 tcgcacgata tacaggattt tgccaaaggg ttcgtgtaga ctttccttgg tgtatccaac 13440 ggcgtcagcc gggcaggata ggtgaagtag gcccacccgc gagcgggtgt tccttcttca 13500 ctgtccctta ttcgcacctg gcggtgctca acgggaatcc tgctctgcga ggctggccgg 13560 ctaccgccgg cgtaacagat gagggcaagc ggatggctga tgaaaccaag ccaaccagga 13620 agggcagccc acctatcaag gtgtactgcc ttccagacga acgaagagcg attgaggaaa 13680 aggcggcggc ggccggcatg agcctgtcgg cctacctgct ggccgtcggc cagggctaca 13740 aaatcacggg cgtcgtggac tatgagcacg tccgcgagct ggcccgcatc aatggcgacc 13800 tgggccgcct gggcggcctg ctgaaactct ggctcaccga cgacccgcgc acggcgcggt 13860 tcggtgatgc cacgatcctc gccctgctgg cgaagatcga agagaagcag gacgagcttg 13920 gcaaggtcat gatgggcgtg gtccgcccga gggcagagcc atgacttttt tagccgctaa 13980 aacggccggg gggtgcgcgt gattgccaag cacgtcccca tgcgctccat caagaagagc 14040 gacttcgcgg agctggtgaa gtacatcacc gacgagcaag gcaagaccga gcgcctttgc 14100 gacgctca 14108 57 15077 DNA Artificial Sequence Description of Artificial SequencepMRT1342 57 ccgggctggt tgccctcgcc gctgggctgg cggccgtcta tggccctgca aacgcgccag 60 aaacgccgtc gaagccgtgt gcgagacacc gcggccgccg gcgttgtgga tacctcgcgg 120 aaaacttggc cctcactgac agatgagggg cggacgttga cacttgaggg gccgactcac 180 ccggcgcggc gttgacagat gaggggcagg ctcgatttcg gccggcgacg tggagctggc 240 cagcctcgca aatcggcgaa aacgcctgat tttacgcgag tttcccacag atgatgtgga 300 caagcctggg gataagtgcc ctgcggtatt gacacttgag gggcgcgact actgacagat 360 gaggggcgcg atccttgaca cttgaggggc agagtgctga cagatgaggg gcgcacctat 420 tgacatttga ggggctgtcc acaggcagaa aatccagcat ttgcaagggt ttccgcccgt 480 ttttcggcca ccgctaacct gtcttttaac ctgcttttaa accaatattt ataaaccttg 540 tttttaacca gggctgcgcc ctgtgcgcgt gaccgcgcac gccgaagggg ggtgcccccc 600 cttctcgaac cctcccggcc cgctaacgcg ggcctcccat ccccccaggg gctgcgcccc 660 tcggccgcga acggcctcac cccaaaaatg gcagcgctgg cagtccttgc cattgccggg 720 atcggggcag taacgggatg ggcgatcagc ccgagcgcga cgcccggaag cattgacgtg 780 ccgcaggtgc tggcatcgac attcagcgac caggtgccgg gcagtgaggg cggcggcctg 840 ggtggcggcc tgcccttcac ttcggccgtc ggggcattca cggacttcat ggcggggccg 900 gcaattttta ccttgggcat tcttggcata gtggtcgcgg gtgccgtgct cgtgttcggg 960 ggtgcgataa acccagcgaa ccatttgagg tgataggtaa gattataccg aggtatgaaa 1020 acgagaattg gacctttaca gaattactct atgaagcgcc atatttaaaa agctaccaag 1080 acgaagagga tgaagaggat gaggaggcag attgccttga atatattgac aatactgata 1140 agataatata tcttttatat agaagatatc gccgtatgta aggatttcag ggggcaaggc 1200 ataggcagcg cgcttatcaa tatatctata gaatgggcaa agcataaaaa cttgcatgga 1260 ctaatgcttg aaacccagga caataacctt atagcttgta aattctatca taattgggta 1320 atgactccaa cttattgata gtgttttatg ttcagataat gcccgatgac tttgtcatgc 1380 agctccaccg attttgagaa cgacagcgac ttccgtccca gccgtgccag gtgctgcctc 1440 agattcaggt tatgccgctc aattcgctgc gtatatcgct tgctgattac gtgcagcttt 1500 cccttcaggc gggattcata cagcggccag ccatccgtca tccatatcac cacgtcaaag 1560 ggtgacagca ggctcataag acgccccagc gtcgccatag tgcgttcacc gaatacgtgc 1620 gcaacaaccg tcttccggag actgtcatac gcgtaaaaca gccagcgctg gcgcgattta 1680 gccccgacat agccccactg ttcgtccatt tccgcgcaga cgatgacgtc actgcccggc 1740 tgtatgcgcg aggttaccga ctgcggcctg agttttttaa gtgacgtaaa atcgtgttga 1800 ggccaacgcc cataatgcgg gctgttgccc ggcatccaac gccattcatg gccatatcaa 1860 tgattttctg gtgcgtaccg ggttgagaag cggtgtaagt gaactgcagt tgccatgttt 1920 tacggcagtg agagcagaga tagcgctgat gtccggcggt gcttttgccg ttacgcacca 1980 ccccgtcagt agctgaacag gagggacagc tgatagacac agaagccact ggagcacctc 2040 aaaaacacca tcatacacta aatcagtaag ttggcagcat cacccataat tgtggtttca 2100 aaatcggctc cgtcgatact atgttatacg ccaactttga aaacaacttt gaaaaagctg 2160 ttttctggta tttaaggttt tagaatgcaa ggaacagtga attggagttc gtcttgttat 2220 aattagcttc ttggggtatc tttaaatact gtagaaaaga ggaaggaaat aataaatggc 2280 taaaatgaga atatcaccgg aattgaaaaa actgatcgaa aaataccgct gcgtaaaaga 2340 tacggaagga atgtctcctg ctaaggtata taagctggtg ggagaaaatg aaaacctata 2400 tttaaaaatg acggacagcc ggtataaagg gaccacctat gatgtggaac gggaaaagga 2460 catgatgcta tggctggaag gaaagctgcc tgttccaaag gtcctgcact ttgaacggca 2520 tgatggctgg agcaatctgc tcatgagtga ggccgatggc gtcctttgct cggaagagta 2580 tgaagatgaa caaagccctg aaaagattat cgagctgtat gcggagtgca tcaggctctt 2640 tcactccatc gacatatcgg attgtcccta tacgaatagc ttagacagcc gcttagccga 2700 attggattac ttactgaata acgatctggc cgatgtggat tgcgaaaact gggaagaaga 2760 cactccattt aaagatccgc gcgagctgta tgatttttta aagacggaaa agcccgaaga 2820 ggaacttgtc ttttcccacg gcgacctggg agacagcaac atctttgtga aagatggcaa 2880 agtaagtggc tttattgatc ttgggagaag cggcagggcg gacaagtggt atgacattgc 2940 cttctgcgtc cggtcgatca gggaggatat cggggaagaa cagtatgtcg agctattttt 3000 tgacttactg gggatcaagc ctgattggga gaaaataaaa tattatattt tactggatga 3060 attgttttag tacctagatg tggcgcaacg atgccggcga caagcaggag cgcaccgact 3120 tcttccgcat caagtgtttt ggctctcagg ccgaggccca cggcaagtat ttgggcaagg 3180 ggtcgctggt attcgtgcag ggcaagattc ggaataccaa gtacgagaag gacggccaga 3240 cggtctacgg gaccgacttc attgccgata aggtggatta tctggacacc aaggcaccag 3300 gcgggtcaaa tcaggaataa gggcacattg ccccggcgtg agtcggggca atcccgcaag 3360 gagggtgaat gaatcggacg tttgaccgga aggcatacag gcaagaactg atcgacgcgg 3420 ggttttccgc cgaggatgcc gaaaccatcg caagccgcac cgtcatgcgt gcgccccgcg 3480 aaaccttcca gtccgtcggc tcgatggtcc agcaagctac ggccaagatc gagcgcgaca 3540 gcgtgcaact ggctccccct gccctgcccg cgccatcggc cgccgtggag cgttcgcgtc 3600 gtctcgaaca ggaggcggca ggtttggcga agtcgatgac catcgacacg cgaggaacta 3660 tgacgaccaa gaagcgaaaa accgccggcg aggacctggc aaaacaggtc agcgaggcca 3720 agcaggccgc gttgctgaaa cacacgaagc agcagatcaa ggaaatgcag ctttccttgt 3780 tcgatattgc gccgtggccg gacacgatgc gagcgatgcc aaacgacacg gcccgctctg 3840 ccctgttcac cacgcgcaac aagaaaatcc cgcgcgaggc gctgcaaaac aaggtcattt 3900 tccacgtcaa caaggacgtg aagatcacct acaccggcgt cgagctgcgg gccgacgatg 3960 acgaactggt gtggcagcag gtgttggagt acgcgaagcg cacccctatc ggcgagccga 4020 tcaccttcac gttctacgag ctttgccagg acctgggctg gtcgatcaat ggccggtatt 4080 acacgaaggc cgaggaatgc ctgtcgcgcc tacaggcgac ggcgatgggc ttcacgtccg 4140 accgcgttgg gcacctggaa tcggtgtcgc tgctgcaccg cttccgcgtc ctggaccgtg 4200 gcaagaaaac gtcccgttgc caggtcctga tcgacgagga aatcgtcgtg ctgtttgctg 4260 gcgaccacta cacgaaattc atatgggaga agtaccgcaa gctgtcgccg acggcccgac 4320 ggatgttcga ctatttcagc tcgcaccggg agccgtaccc gctcaagctg gaaaccttcc 4380 gcctcatgtg cggatcggat tccacccgcg tgaagaagtg gcgcgagcag gtcggcgaag 4440 cctgcgaaga gttgcgaggc agcggcctgg tggaacacgc ctgggtcaat gatgacctgg 4500 tgcattgcaa acgctagggc cttgtggggt cagttccggc tgggggttca gcagccagcg 4560 ctttactggc atttcaggaa caagcgggca ctgctcgacg cacttgcttc gctcagtatc 4620 gctcgggacg cacggcgcgc tctacgaact gccgataaac agaggattaa aattgacaat 4680 tgtgattaag gctcagattc gacggcttgg agcggccgac gtgcaggatt tccgcgagat 4740 ccgattgtcg gccctgaaga aagctccaga gatgttcggg tccgtttacg agcacgagga 4800 gaaaaagccc atggaggcgt tcgctgaacg gttgcgagat gccgtggcat tcggcgccta 4860 catcgacggc gagatcattg ggctgtcggt cttcaaacag gaggacggcc ccaaggacgc 4920 tcacaaggcg catctgtccg gcgttttcgt ggagcccgaa cagcgaggcc gaggggtcgc 4980 cggtatgctg ctgcgggcgt tgccggcggg tttattgctc gtgatgatcg tccgacagat 5040 tccaacggga atctggtgga tgcgcatctt catcctcggc gcacttaata tttcgctatt 5100 ctggagcttg ttgtttattt cggtctaccg cctgccgggc ggggtcgcgg cgacggtagg 5160 cgctgtgcag ccgctgatgg tcgtgttcat ctctgccgct ctgctaggta gcccgatacg 5220 attgatggcg gtcctggggg ctatttgcgg aactgcgggc gtggcgctgt tggtgttgac 5280 accaaacgca gcgctagatc ctgtcggcgt cgcagcgggc ctggcggggg cggtttccat 5340 ggcgttcgga accgtgctga cccgcaagtg gcaacctccc gtgcctctgc tcacctttac 5400 cgcctggcaa ctggcggccg gaggacttct gctcgttcca gtagctttag tgtttgatcc 5460 gccaatcccg atgcctacag gaaccaatgt tctcggcctg gcgtggctcg gcctgatcgg 5520 agcgggttta acctacttcc tttggttccg ggggatctcg cgactcgaac ctacagttgt 5580 ttccttactg ggctttctca gccccagatc tggggtcgat cagccgggga tgcatcaggc 5640 cgacagtcgg aacttcgggt ccccgacctg taccattcgg tgagcaatgg ataggggagt 5700 tgatatcgtc aacgttcact tctaaagaaa tagcgccact cagcttcctc agcggcttta 5760 tccagcgatt tcctattatg tcggcatagt tctcaagatc gacagcctgt cacggttaag 5820 cgagaaatga ataagaaggc tgataattcg gatctctgcg agggagatga tatttgatca 5880 caggcagcaa cgctctgtca tcgttacaat caacatgcta ccctccgcga gatcatccgt 5940 gtttcaaacc cggcagctta gttgccgttc ttccgaatag catcggtaac atgagcaaag 6000 tctgccgcct tacaacggct ctcccgctga cgccgtcccg gactgatggg ctgcctgtat 6060 cgagtggtga ttttgtgccg agctgccggt cggggagctg ttggctggct ggtggcagga 6120 tatattgtgg tgtaaacaaa ttgacgctta gacaacttaa taacacattg cggacgtttt 6180 taatgtactg gggtggtttt tcttttcacc agtgagacgg gcaacagctg attgcccttc 6240 accgcctggc cctgagagag ttgcagcaag cggtccacgc tggtttgccc cagcaggcga 6300 aaatcctgtt tgatggtggt tccgaaatcg gcaaaatccc ttataaatca aaagaatagc 6360 ccgagatagg gttgagtgtt gttccagttt ggaacaagag tccactatta aagaacgtgg 6420 actccaacgt caaagggcga aaaaccgtct atcagggcga tggcccacta cgtgaaccat 6480 cacccaaatc aagttttttg gggtcgaggt gccgtaaagc actaaatcgg aaccctaaag 6540 ggagcccccg atttagagct tgacggggaa agccggcgaa cgtggcgaga aaggaaggga 6600 agaaagcgaa aggagcgggc gccattcagg ctgcgcaact gttgggaagg gcgatcggtg 6660 cgggcctctt cgctattacg ccagctggcg aaagggggat gtgctgcaag gcgattaagt 6720 tgggtaacgc cagggttttc ccagtcacga cgttgtaaaa cgacggccag tgaattggta 6780 ccgaagcttg gccggccgtt aacacgcgtg gatccttaat taagtcgact ctagagctgc 6840 ctgcagcact agtatccgcc gtcatcaatg acatcatcac agtactgagg agatgaatag 6900 ctagccatga cactctgtgc gaatattgaa gacgtaagca ctgacgacaa caatgaaaag 6960 aagaagataa ggtcggtgat tgtgaaagag acatagagga cacatgtaag gtggaaaatg 7020 taagggcgga aagtaacctt atgcatttgt aatttggtta cgactagtga ttgatgtgat 7080 atcaagattg atgtgatatc tccactgacg taagggatga cgcatgccac gactagtgat 7140 tgatgtgata tcaagattga tgtgatatct ccactgacgt aagggatgac gcatgccacg 7200 actagtgatt gatgtgatat caagattgat gtgatatctc cactgacgta agggatgacg 7260 catgccacga ctagtgattg atgtgatatc aagattgatg tgatatctcc actgacgtaa 7320 gggatgacgc atgccacgtt acccggtatg ccggttccca agctttattt ccttatttaa 7380 gcacttgtgt agtagcttag aaaaccaaca caacaaccta gaggccgaat taacacgcgt 7440 ggatccttaa ttaagtcgac tctaggggtg gtcagtccct tatgttacgt cctgtagaaa 7500 ccccaacccg tgaaatcaaa aaactcgacg gcctgtgggc attcagtctg gatcgcgaaa 7560 actgtggaat tgatcagcgt tggtgggaaa gcgcgttaca agaaagccgg gcaattgctg 7620 tgccaggcag ttttaacgat cagttcgccg atgcagatat tcgtaattat gcgggcaacg 7680 tctggtatca gcgcgaagtc tttataccga aaggttgggc aggccagcgt atcgtgctgc 7740 gtttcgatgc ggtcactcat tacggcaaag tgtgggtcaa taatcaggaa gtgatggagc 7800 atcagggcgg ctatacgcca tttgaagccg atgtcacgcc gtatgttatt gccgggaaaa 7860 gtgtacgtat caccgtttgt gtgaacaacg aactgaactg gcagactatc ccgccgggaa 7920 tggtgattac cgacgaaaac ggcaagaaaa agcagtctta cttccatgat ttctttaact 7980 atgccggaat ccatcgcagc gtaatgctct acaccacgcc gaacacctgg gtggacgata 8040 tcaccgtggt gacgcatgtc gcgcaagact gtaaccacgc gtctgttgac tggcaggtgg 8100 tggccaatgg tgatgtcagc gttgaactgc gtgatgcgga tcaacaggtg gttgcaactg 8160 gacaaggcac tagcgggact ttgcaagtgg tgaatccgca cctctggcaa ccgggtgaag 8220 gttatctcta tgaactgtgc gtcacagcca aaagccagac agagtgtgat atctacccgc 8280 ttcgcgtcgg catccggtca gtggcagtga agggcgaaca gttcctgatt aaccacaaac 8340 cgttctactt tactggcttt ggtcgtcatg aagatgcgga cttgcgtggc aaaggattcg 8400 ataacgtgct gatggtgcac gaccacgcat taatggactg gattggggcc aactcctacc 8460 gtacctcgca ttacccttac gctgaagaga tgctcgactg ggcagatgaa catggcatcg 8520 tggtgattga tgaaactgct gctgtcggct ttaacctctc tttaggcatt ggtttcgaag 8580 cgggcaacaa gccgaaagaa ctgtacagcg aagaggcagt caacggggaa actcagcaag 8640 cgcacttaca ggcgattaaa gagctgatag cgcgtgacaa aaaccaccca agcgtggtga 8700 tgtggagtat tgccaacgaa ccggataccc gtccgcaagg tgcacgggaa tatttcgcgc 8760 cactggcgga agcaacgcgt aaactcgacc cgacgcgtcc gatcacctgc gtcaatgtaa 8820 tgttctgcga cgctcacacc gataccatca gcgatctctt tgatgtgctg tgcctgaacc 8880 gttattacgg atggtatgtc caaagcggcg atttggaaac ggcagagaag gtactggaaa 8940 aagaacttct ggcctggcag gagaaactgc atcagccgat tatcatcacc gaatacggcg 9000 tggatacgtt agccgggctg cactcaatgt acaccgacat gtggagtgaa gagtatcagt 9060 gtgcatggct ggatatgtat caccgcgtct ttgatcgcgt cagcgccgtc gtcggtgaac 9120 aggtatggaa tttcgccgat tttgcgacct cgcaaggcat attgcgcgtt ggcggtaaca 9180 agaaagggat cttcactcgc gaccgcaaac cgaagtcggc ggcttttctg ctgcaaaaac 9240 gctggactgg catgaacttc ggtgaaaaac cgcagcaggg aggcaaacaa tgaatcaaca 9300 actctcctgg cgcaccatcg tcggctacag cctcgggaat tgctaccgct agagaattcg 9360 gtacgctgaa atcaccagtc tctctctaca aatctatctc tctctatttt ctccataaat 9420 aatgtgtgag tagtttcccg ataagggaaa ttagggttct tatagggttt cgctcatgtg 9480 ttgagcatat aagaaaccct tagtatgtat ttgtatttgt aaaatacttc tatcaataaa 9540 atttctaatt cctaaaacca aaatccagta ctaaaatcca gatctcctaa agtccctata 9600 gatctttgtc gtgaatataa accagacacg agacgactaa acctggagcc cagacgccgt 9660 tcgaagctag aagtaccgct taggcaggag gccgttaggg aaaagatgct aaggcagggt 9720 tggttacgtt gactcccccg taggtttggt ttaaatatga tgaagtggac ggaaggaagg 9780 aggaagacaa ggaaggataa ggttgcaggc cctgtgcaag gtaagaagat ggaaatttga 9840 tagaggtacg ctactatact tatactatac gctaagggaa tgcttgtatt tataccctat 9900 accccctaat aaccccttat caatttaaga aataatccgc ataagccccc gcttaaaaat 9960 tggtatcaga gccatgaata ggtctatgac caaaactcaa gaggataaaa cctcaccaaa 10020 atacgaaaga gttcttaact ctaaagataa aagatctttc aagatcaaaa ctagttccct 10080 cacaccggtc ggggatcctc tagagtcgac ctgcaggcat gcaagcttgg cgtaatcatg 10140 gtcatagctg tttcctgtgt gaaattgtta tccgctcaca attccacaca acatacgagc 10200 cggaagcata aagtgtaaag cctggggtgc ctaatgagtg agctaactca cattaattgc 10260 gttgcgctca ctgcccgctt tccagtcggg aaacctgtcg tgccagctgc attaatgaat 10320 cggccaacgc gcggggagag gcggtttgcg tattgggcca aagacaaaag ggcgacattc 10380 aaccgattga gggagggaag gtaaatattg acggaaatta ttcattaaag gtgaattatc 10440 accgtcaccg acttgagcca tttgggaatt agagccagca aaatcaccag tagcaccatt 10500 accattagca aggccggaaa cgtcaccaat gaaaccatcg atagcagcac cgtaatcagt 10560 agcgacagaa tcaagtttgc ctttagcgtc agactgtagc gcgttttcat cggcattttc 10620 ggtcatagcc cccttattag cgtttgccat cttttcataa tcaaaatcac cggaaccaga 10680 gccaccaccg gaaccgcctc cctcagagcc gccaccctca gaaccgccac cctcagagcc 10740 accaccctca gagccgccac cagaaccacc accagagccg ccgccagcat tgacaggagg 10800 cccgatctag taacatagat gacaccgcgc gcgataattt atcctagttt gcgcgctata 10860 ttttgttttc tatcgcgtat taaatgtata attgcgggac tctaatcata aaaacccatc 10920 tcataaataa cgtcatgcat tacatgttaa ttattacatg cttaacgtaa ttcaacagaa 10980 attatatgat aatcatcgca agaccggcaa caggattcaa tcttaagaaa ctttattgcc 11040 aaatgtttga acgatcgggg atcatccggg tctgtggcgg gaactccacg aaaatatccg 11100 aacgcagcaa gatatcgcgg tgcatctcgg tcttgcctgg gcagtcgccg ccgacgccgt 11160 tgatgtggac gccgggcccg atcatattgt cgctcaggat cgtggcgttg tgcttgtcgg 11220 ccgttgctgt cgtaatgata tcggcacctt cgaccgcctg ttccgcagag atcccgtggg 11280 cgaagaactc cagcatgaga tccccgcgct ggaggatcat ccagccggcg tcccggaaaa 11340 cgattccgaa gcccaacctt tcatagaagg cggcggtgga atcgaaatct cgtgatggca 11400 ggttgggcgt cgcttggtcg gtcatttcga accccagagt cccgctcaga agaactcgtc 11460 aagaaggcga tagaaggcga tgcgctgcga atcgggagcg gcgataccgt aaagcacgag 11520 gaagcggtca gcccattcgc cgccaagctc ttcagcaata tcacgggtag ccaacgctat 11580 gtcctgatag cggtccgcca cacccagccg gccacagtcg atgaatccag aaaagcggcc 11640 attttccacc atgatattcg gcaagcaggc atcgccatgg gtcacgacga gatcatcgcc 11700 gtcgggcatg cgcgccttga gcctggcgaa cagttcggct ggcgcgagcc cctgatgctc 11760 ttcgtccaga tcatcctgat cgacaagacc ggcttccatc cgagtacgtg ctcgctcgat 11820 gcgatgtttc gcttggtggt cgaatgggca ggtagccgga tcaagcgtat gcagccgccg 11880 cattgcatca gccatgatgg atactttctc ggcaggagca aggtgagatg acaggagatc 11940 ctgccccggc acttcgccca atagcagcca gtcccttccc gcttcagtga caacgtcgag 12000 cacagctgcg caaggaacgc ccgtcgtggc cagccacgat agccgcgctg cctcgtcctg 12060 cagttcattc agggcaccgg acaggtcggt cttgacaaaa agaaccgggc gcccctgcgc 12120 tgacagccgg aacacggcgg catcagagca gccgattgtc tgttgtgccc agtcatagcc 12180 gaatagcctc tccacccaag cggccggaga acctgcgtgc aatccatctt gttcaatcat 12240 gcgaaacgat ccagatccgg tgcagattat ttggattgag agtgaatatg agactctaat 12300 tggataccga ggggaattta tggaacgtca gtggagcatt tttgacaaga aatatttgct 12360 agctgatagt gaccttaggc gacttttgaa cgcgcaataa tggtttctga cgtatgtgct 12420 tagctcatta aactccagaa acccgcggct gagtggctcc ttcaacgttg cggttctgtc 12480 agttccaaac gtaaaacggc ttgtcccgcg tcatcggcgg gggtcataac gtgactccct 12540 taattctccg ctcatgatca gattgtcgtt tcccgccttc agtttaaact atcagtgttt 12600 gacaggatat attggcgggt aaacctaaga gaaaagagcg tttattagaa taatcggata 12660 tttaaaaggg cgtgaaaagg tttatccgtt cgtccatttg tatgtgcatg ccaaccacag 12720 ggttccccag atctggcgcc ggccagcgag acgagcaaga ttggccgccg cccgaaacga 12780 tccgacagcg cgcccagcac aggtgcgcag gcaaattgca ccaacgcata cagcgccagc 12840 agaatgccat agtgggcggt gacgtcgttc gagtgaacca gatcgcgcag gaggcccggc 12900 agcaccggca taatcaggcc gatgccgaca gcgtcgagcg cgacagtgct cagaattacg 12960 atcaggggta tgttgggttt cacgtctggc ctccggacca gcctccgctg gtccgattga 13020 acgcgcggat tctttatcac tgataagttg gtggacatat tatgtttatc agtgataaag 13080 tgtcaagcat gacaaagttg cagccgaata cagtgatccg tgccgccctg gacctgttga 13140 acgaggtcgg cgtagacggt ctgacgacac gcaaactggc ggaacggttg ggggttcagc 13200 agccggcgct ttactggcac ttcaggaaca agcgggcgct gctcgacgca ctggccgaag 13260 ccatgctggc ggagaatcat acgcattcgg tgccgagagc cgacgacgac tggcgctcat 13320 ttctgatcgg gaatgcccgc agcttcaggc aggcgctgct cgcctaccgc gatggcgcgc 13380 gcatccatgc cggcacgcga ccgggcgcac cgcagatgga aacggccgac gcgcagcttc 13440 gcttcctctg cgaggcgggt ttttcggccg gggacgccgt caatgcgctg atgacaatca 13500 gctacttcac tgttggggcc gtgcttgagg agcaggccgg cgacagcgat gccggcgagc 13560 gcggcggcac cgttgaacag gctccgctct cgccgctgtt gcgggccgcg atagacgcct 13620 tcgacgaagc cggtccggac gcagcgttcg agcagggact cgcggtgatt gtcgatggat 13680 tggcgaaaag gaggctcgtt gtcaggaacg ttgaaggacc gagaaagggt gacgattgat 13740 caggaccgct gccggagcgc aacccactca ctacagcaga gccatgtaga caacatcccc 13800 tccccctttc caccgcgtca gacgcccgta gcagcccgct acgggctttt tcatgccctg 13860 ccctagcgtc caagcctcac ggccgcgctc ggcctctctg gcggccttct ggcgctcttc 13920 cgcttcctcg ctcactgact cgctgcgctc ggtcgttcgg ctgcggcgag cggtatcagc 13980 tcactcaaag gcggtaatac ggttatccac agaatcaggg gataacgcag gaaagaacat 14040 gtgagcaaaa ggccagcaaa aggccaggaa ccgtaaaaag gccgcgttgc tggcgttttt 14100 ccataggctc cgcccccctg acgagcatca caaaaatcga cgctcaagtc agaggtggcg 14160 aaacccgaca ggactataaa gataccaggc gtttccccct ggaagctccc tcgtgcgctc 14220 tcctgttccg accctgccgc ttaccggata cctgtccgcc tttctccctt cgggaagcgt 14280 ggcgcttttc cgctgcataa ccctgcttcg gggtcattat agcgattttt tcggtatatc 14340 catccttttt cgcacgatat acaggatttt gccaaagggt tcgtgtagac tttccttggt 14400 gtatccaacg gcgtcagccg ggcaggatag gtgaagtagg cccacccgcg agcgggtgtt 14460 ccttcttcac tgtcccttat tcgcacctgg cggtgctcaa cgggaatcct gctctgcgag 14520 gctggccggc taccgccggc gtaacagatg agggcaagcg gatggctgat gaaaccaagc 14580 caaccaggaa gggcagccca cctatcaagg tgtactgcct tccagacgaa cgaagagcga 14640 ttgaggaaaa ggcggcggcg gccggcatga gcctgtcggc ctacctgctg gccgtcggcc 14700 agggctacaa aatcacgggc gtcgtggact atgagcacgt ccgcgagctg gcccgcatca 14760 atggcgacct gggccgcctg ggcggcctgc tgaaactctg gctcaccgac gacccgcgca 14820 cggcgcggtt cggtgatgcc acgatcctcg ccctgctggc gaagatcgaa gagaagcagg 14880 acgagcttgg caaggtcatg atgggcgtgg tccgcccgag ggcagagcca tgactttttt 14940 agccgctaaa acggccgggg ggtgcgcgtg attgccaagc acgtccccat gcgctccatc 15000 aagaagagcg acttcgcgga gctggtgaag tacatcaccg acgagcaagg caagaccgag 15060 cgcctttgcg acgctca 15077 ?? ?? (continued...) (continued...) 

1) A clean synthetic vector containing only the elements indispensable to its functionality and to the transgenesis of a cell, said vector comprising, as operationally bound elements indispensable to its functionality and to the transgenesis of a cell: a nucleic acid sequence coding for a first origin of replication; a nucleic acid sequence coding for a selection agent; and a trfA locus coding for a protein that permits an increase in the replication rate of the vector.
 2. The clean synthetic vector of claim 1 wherein said cell is a plant cell.
 3. The clean synthetic vector of claim 1 wherein said first origin of replication is an RK2 ori.
 4. The clean synthetic vector of claim 3 wherein said RK2 ori is a V ori with a broad host range.
 5. The clean synthetic vector of claim 1 wherein said selection agent is an antibiotic resistance gene.
 6. The clean synthetic vector of claim 5 wherein said antibiotic resistance gene is an npt III gene that confers resistance to kanamycin in bacteria.
 7. The clean synthetic vector of claim 1 wherein said trf locus coding for a protein that permits an increase in the replication rate of the vector originates from pRK2.
 8. The clean synthetic vector of claim 7 wherein said locus coding for a protein that permits an increase in the replication rate of the vector encodes P285 and P382. 9) The clean synthetic vector of claim 1 wherein said vector comprises the nucleic acid sequence identified by the number SEQ.ID01. 10) The clean synthetic vector of claim 1 wherein said vector is pMRT1105, whose nucleic acid sequence is identified by the number SEQ.ID01. 11) The clean synthetic vector of claim 1 wherein said vector comprises a nucleic acid sequence coding for a second origin of replication
 12. The clean synthetic vector of claim 11 wherein said second origin of replication is an E. coli ori.
 13. The clean synthetic vector of claim 12 wherein said E. coli ori is a ColEI ori. 14) The clean synthetic vector of claim 1 wherein said vector comprises the nucleic acid sequence identified by the number SEQ.ID02. 15) The clean synthetic vector of claim 1 wherein said vector is plasmid pMRT1106, whose nucleic acid sequence is identified by the number SEQ.ID02. 16) The clean synthetic vector of claim 1 wherein said vector comprises a region comprising a nucleic acid sequence containing a plurality of unique enzyme restriction sites, said plurality collectively called a <<multiple cloning site>> (MCS). 17) The clean synthetic vector of claim 1 wherein said vector comprises a nucleic acid sequence coding for a T-DNA, including a right border, RB, and a left border, LB, which permit the vector to function as a binary plasmid. 18) The clean synthetic vector of claim 16 or claim 17 wherein said MCS is situated near the right border RB of the T-DNA. 19) The clean synthetic vector of claim 17 wherein said vector comprises a nucleic acid sequence coding for at least one expression promoter and at least one transcription terminator situated between the left border, LB, and the right border, RB, of the T-DNA. 20) The clean synthetic vector of claim 19, wherein said expression promoter is chosen from the group consisting of constitutive promoters, inducible promoters and specific promoters. 21) The clean synthetic vector of claim 19 wherein said expression promoter is a plant expression promoter. 22) The clean synthetic vector of claim 21 wherein said expression promoter is chosen from the group consisting of: the 35S CaMV promoter; the ep35S of CaMV; the pea plastocyanin gene promoter, its “enhancer” and derived zones; the “high molecular weight glutenin” (HMWG) promoter of wheat; the CsVMV “Cassava mosaic virus” promoter; the CoYMV “Commelina yellow mosaic virus” promoter; the chimeric promoters of the CsVMV and CoYMV promoters; and derivatives thereof. 23) The clean synthetic vector of claim 19 wherein said expression terminator is chosen from the functional terminators in a plant cell. 24) The clean synthetic vector of claim 23 wherein said functional terminator is a 35S or a nos terminator. 25) The clean synthetic vector of claim 1 wherein said vector comprises a nucleic acid sequence coding for a selection agent that is functional in a plant cell. 26) The clean synthetic vector of claim 25 wherein said nucleic acid sequence coding for a selection agent codes for an antibiotic resistance gene and/or an herbicide resistance gene. 27) The clean synthetic vector of claim 26, wherein said vector comprises a sequence coding for the bar resistance (<<bialaphos resistance>>) or pat (<<phosphinothricin acetyltransferase>>) gene. 28) The clean synthetic vector of claim 25, wherein said nucleic acid sequence coding for a selection agent that is functional in a plant cell is a sequence coding for a mutant or wild-type nptII resistance gene. 29) The clean synthetic vector of claim 25 wherein said nucleic acid sequence coding for a selection agent is situated near the left border of said T-DNA. 30) The clean synthetic vector of claim 1 wherein said vector comprises an expression cassette comprising an expression-promoting nucleic acid sequence operationally bound to a nucleic acid sequence encoding a polypeptide to be expressed, wherein said nucleic acid sequence encoding a polypeptide to be expressed is itself operationally bound to a transcription termination nucleic acid sequence. 31) The clean synthetic vector of claim 30, wherein said polypeptide to be expressed is an enzyme or protein or derivative thereof possessing an activity in vitro and/or in man and/or in animals, said activity selected from a digestive, pancreatic, biliary, antiviral, anti-inflammatory, pulmonary, antimicrobial, nutritional, cosmetic, structural, blood, cardiovascular, ophthalmic, antigenic, immunostimulatory or cerebral activity. 32) A vector of claim 1, said vector being a binary, linear or circular plasmid. 33) A vector of claim 32, said vector chosen from the group consisting of the nucleic acid sequences identified by the numbers SEQ.ID03, SEQ.ID04, SEQ.ID05, SEQ.ID06, SEQ.ID07, SEQ.ID08, SEQ.IDO9, SEQ.ID10, SEQ.ID11, SEQ.ID12, SEQ.ID13, SEQ.ID14, SEQ.ID15, SEQ.ID16, SEQ.ID17, SEQ.ID18, SEQ.ID19, SEQ.ID20, SEQ.ID21 and SEQ.ID22. 34) The clean synthetic vector of claim 1 wherein each functional component can be cleaved independently of the other components. 35) The clean synthetic vector of claim 34, wherein each functional component can be cleaved independently of the other components by enzymatic digestion at a first unique restriction site and a second unique restriction site, both sites being present in one vector. 36) A nucleic acid sequence, said sequence comprising a nucleic acid sequence chosen from the group consisting of the nucleic acid sequences identified by the numbers SEQ.ID01, SEQ.ID02, SEQ.ID03, SEQ.ID04, SEQ.ID05, SEQ.ID06, SEQ.ID07, SEQ.ID08, SEQ.IDO9, SEQ.ID10, SEQ.ID11, SEQ.ID12, SEQ.ID13, SEQ.ID14, SEQ.ID15, SEQ.ID16, SEQ.ID17, SEQ.ID18, SEQ.ID19, SEQ.ID20, SEQ.ID21 and SEQ.ID22. 37) A transgenic plant having stably integrated in its genome a vector of claim
 1. 38) A transgenic plant having stably integrated in its genome a nucleic acid sequence of claim
 36. 39) The transgenic plant of claim 37 or claim 38 wherein said plant is a dicotyledon species. 40) The transgenic plant of claim 39 wherein said dicotyledon species is selected from the group consisting of potato, tobacco, cotton, lettuce, tomato, melon, cucumber, pea, rape, beetroot and sunflower. 41) The transgenic plant of claim 37 or claim 38 wherein said plant is a monocotyledon species. 42) The transgenic plant of claim 41 wherein said monocotyledon species is selected from the group consisting wheat, barley, oats, rice and maize. 43) A propagule of a transgenic plant of claim 37 or
 38. 44) The propagule of claim 43 wherein said propagule is a seed. 45) A cell comprising a vector of claim
 1. 46) A cell comprising a nucleic acid sequence selected from the group consisting of those sequences identified by the numbers SEQ.ID01, SEQ.ID02, SEQ.ID03, SEQ.IDO4, SEQ.ID05, SEQ.ID06, SEQ.ID07, SEQ.ID08, SEQ.IDO9, SEQ.ID10, SEQ.ID11, SEQ.ID12, SEQ.ID13, SEQ.ID14, SEQ.ID15, SEQ.ID16, SEQ.ID17, SEQ.ID18, SEQ.ID19, SEQ.ID20, SEQ.ID21 and SEQ.ID22. 47) The cell of claim 45 or claim 46 wherein said cell is a plant cell. 48) A method for the expression of a nucleic acid sequence coding for a polypeptide to be produced in a cell, said method comprising the steps of: transforming said cell with a vector of claim 1, said vector comprising said nucleic acid sequence coding for said polypeptide; and maintaining said cell under conditions that permit the expression of said nucleic acid sequence coding for said polypeptide, whereby said polypeptide is produced. 49) A method for the expression of a nucleic acid sequence coding for a polypeptide to be produced in a cell, said method comprising the steps of: transforming said cell with a nucleic acid sequence of claim 36, said sequence comprising said nucleic acid sequence coding for said polypeptide; and maintaining said cell under conditions that permit the expression of said nucleic acid sequence coding for said polypeptide, whereby said polypeptide is produced. 50) The method of claim 48 or 49 wherein said cell is a prokaryotic or eukaryotic cell. 51) The method of claim 48 or 49 wherein said cell is chosen from the group consisting of microbial cells, fungal cells, insect cells, animal cells and plant cells. 52) The method of claim 48 or 49 wherein said cell is a plant cell. 53) A method for obtaining a transgenic plant of claim 37, said method comprising the steps of: a) transforming a plant cell with a vector of claim 1; b) selecting a plant cell having said vector integrated therein; and c) propagating the selected plant cell of step (b), either by culturing or by regeneration of chimeric or transgenic whole plants.
 54. A method for obtaining a transgenic plant of claim 38, said method comprising the steps of: a) transforming a plant cell with a nucleic acid of claim 36; b) selecting a plant cell having said vector integrated therein; and c) propagating the selected plant cell of step (b), either by culturing or by regeneration of chimeric or transgenic whole plants. 